CN1706077A - Connector for card - Google Patents

Abstract

A connector for a card preventing the width of a cam groove from being increased even when the inside of a first groove part is cut by the repeated movement of an engagement member to maintain the function of the cam groove, wherein since an engagement pin (40) moving near a second groove part (52) is guided to the opposite side of the second groove part (52) by a guide part (51f) formed in the first groove part (51), an inclination part (51e') formed by the cutting of the step part (51e) of the first groove part (51) by the engagement pin (40) can be formed eccentrically to the opposite side of the second groove part (52). Thus, since the step part (51e) is cut without leaving the portion thereof for guiding the engagement pin (40) to the second groove part (52) side, the engagement pin (40) moving from one end to the other end of the first groove part (51) is not moved from the inclination part (51e') of the first groove part (2a) directly to the second groove part (52) side.

Description

Card connector

Technical field

The present invention relates to for example be used in card connector vehicle audio system, portable terminal device, PC and peripheral equipment thereof etc., that insert so-called storage card and electrically connect.

Background technology

In the past, as this card connector, known a kind of structure is: having at one end, side has the connector body of card reader and is located at another interior distolateral a plurality of card terminal for connecting of connector body, card locking mechanism with so-called push-push, when with card when direction of insertion pushes, card is remained on the insertion position of regulation, and, once more with card after direction of insertion pushing, in case remove pushing, then card is discharged (for example, the Japanese publication communique of reference is 2001-267013 number) to anti-direction of insertion.

For example, Figure 11～connector shown in Figure 13, on the sliding component 1 that moves with card, the cam path 2 that setting is made of so-called heart-shaped cam, by the engagement pin 3 that is connected with connector body is engaged with cam path 2, constitute the state that engagement pin 3 moves along heart-shaped cam 2 along with moving of sliding component 1.

That is, in described connector, when with card when direction of insertion pushes, sliding component 1 moves to the card insert Inbound, shown in Figure 11 A, engagement pin 3 is one distolateral to other end side shifting from the 1st slot part 2a's of cam path 2.Then, when removing the pushing of card, shown in Figure 11 B, engagement pin 3 is from the assigned position of the 1st slot part 2a distolateral the moving to the 2nd slot part 2b, and engagement pin 3 is ended assigned position in the 2nd slot part 2b by card.Thus, card is maintained in the connector body.Then, when once more with card when direction of insertion pushes, shown in Figure 11 C, engagement pin 3 is from distolateral the moving of other end side direction the 3rd slot part 2c of the 2nd slot part 2b, when removing the pushing of card, shown in Figure 11 D, engagement pin 3 is to the other end side shifting of the 3rd slot part 2c.Thus, card is discharged from connector body.

; in described connector; because engagement pin 3 in turn moves to the 3rd slot part 2c from the 1st slot part 2a; so stage portion 2d, the 2e, the 2f that reduce to the moving direction height of engagement pin 3 are set respectively, but these stage portion 2d, 2e, 2f are owing to cut down little by little by engagement pin 3 repeatedly on each slot part 2a, 2b, 2c.This occasion is because the base end side of engagement pin 3 is configured in Width central authorities among the figure of cam path 2, so shown in Figure 12 A, engagement pin 3 side of (the 2nd slot part 2a side) will be moved along right side among the figure of the 1st slot part 2a.Therefore, shown in Figure 12 B, the stage portion 2d of the 1st slot part 2a is cut down into the state of the side-prominent 2g of wall portion of residual oriented the 2nd slot part 2a at the opposition side of the 2nd slot part 2a, and the 2g of wall portion of Xing Chenging is side directed to the 2nd slot part 2b with engagement pin 3 like this.Again, stage portion 2e between the 1st slot part 2a and the 2nd slot part 2b is also cut down, to be cut down formed rake 2e ' approaching mutually but because the stage portion 2d of the 1st slot part 2a is cut down the stage portion 2e of formed rake 2d ' with the 2nd slot part 2b, so as shown in FIG. 13A, will be to the engagement pin 3 of the described wall 2g of portion guiding from the rake 2d ' of the 1st slot part 2a side rake 2e ' landing to the 2nd slot part 2b side.Its result, shown in Figure 13 B, it is distolateral and directly move to the 2nd slot part 2b not move to another of the 1st slot part 2a from the distolateral engagement pin 3 to other end side shifting of the 1st slot part 2a, move to original state the 3rd slot part 2c etc., engagement pin 3 does not end with the 2nd slot part 2b card, exists cam path 2 can not bring into play the problem of lock function.

Again, if form the width of each slot part 2a, 2b, 2c significantly, can prevent engagement pin 3 from the rake 2d ' of the 1st slot part 2a side landing, but cam path 2 be increased, the shortcoming that exists sliding component 1 to maximize with the increase of groove width to the rake 2e ' of the 2nd slot part 2b side.

Summary of the invention

The present invention, make in view of the above problems, its purpose is, even the card connector that in the occasion of being cut down in the 1st slot part because of moving repeatedly of fastened component, also can keep the cam path function under the situation that does not form big cam path width is provided.

In order to achieve the above object, card connector of the present invention, have: at one end side has the connector body of card reader, be arranged on another distolateral a plurality of card terminal for connecting of connector body, the sliding component that moves to the card insert Inbound with card, sliding component is discharged the force application component of the direction application of force to card, and the mobile fastened component of engaging freely in the cam path on being located at sliding component, when with card when direction of insertion pushes, fastened component is one distolateral to other end side shifting from the 1st slot part of cam path, when removing the pushing of card, fastened component moves to the 2nd slot part from the assigned position of the 1st slot part and blocks the only assigned position in the 2nd slot part, when once more with card when direction of insertion pushes, fastened component is from distolateral move of the 2nd slot part to the 3rd slot part, when removing the pushing of card, fastened component is to the other end side shifting of the 3rd slot part, near at least the 2 slot part in described the 1st slot part, be provided with from a distolateral fastened component to other end side shifting of the 1st slot part guide portion to the opposition side channeling conduct of the 2nd slot part.

Thus, in the 1st slot part of fastened component at cam path when mobile, because the guide portion that the fastened component utilization is located on the 1st slot part moves on one side to Width one distolateral (with the opposition side of the 2nd slot part) guiding on one side, even so because of fastened component move near the occasion of being cut down the 2nd slot part on the 1st slot part repeatedly, also can form part that the 1st slot part cut down state near the opposition side of the 2nd slot part.Therefore, since the 1st slot part cut down not residual have to make fastened component to the side directed part of the 2nd slot part, so fastened component is not in that do not move under another distolateral situation of the 1st slot part can be directly to the 2nd slot part side shifting, even cut down the function that yet can keep cam path reliably in the 1st slot part.This occasion owing to do not need to make the width of cam path to increase, so sliding component is maximized, helps the miniaturization of connector body.

Again, the present invention, in described structure, the Width of the bottom surface of described guide portion by making the 1st slot part one is distolateral to be lower than another distolateral formation.Thus, because the Width one that guide portion has formed on the bottom surface that makes groove is distolateral than another distolateral low state, so the fastened component in the 1st slot part will be to the bottom surface another the distolateral low guide portion side shifting of Width than the 1st slot part, since by reliably to the guiding of the opposition side of the 2nd slot part, so it is distolateral to make fastened component move to another of the 1st slot part all the time.

The simple declaration of accompanying drawing

Fig. 1 is the stereogram of the card connector of expression the present invention one example.

Fig. 2 is the exploded perspective view of card connector.

Fig. 3 is the major part stereogram of card connector.

Fig. 4 is the vertical view of cam path.

Fig. 5 A～Fig. 5 D is the action specification figure of cam path.

Fig. 6 A and Fig. 6 B are that the A-A alignment of Fig. 4 is looked cutaway view.

Fig. 7 is that stage portion is by the vertical view of the cam path after cutting down.

Fig. 8 is the vertical view of cam path of another example of expression guide portion.

Fig. 9 is that the A-A alignment of Fig. 8 is looked cutaway view.

Figure 10 is the cutaway view of another example of expression guide portion.

Figure 11 A～Figure 11 D represents the action specification figure of the cam path of example in the past.

Figure 12 A and Figure 12 B represent the cutaway view and the vertical view of the cam path of example in the past.

Figure 13 A and Figure 13 B represent the cutaway view and the vertical view of the cam path of example in the past.

Embodiment

Fig. 1～Fig. 7 represents an example of the present invention.

This connector, have: a plurality of terminals 20 that are electrically connected from the connector body 10 of a distolateral insertion card 1, with card 1, the sliding component 30 that moves to the card insert Inbound, the engagement pin 40 that an end is connected with connector body 10 are provided with the cam path 50 that engages usefulness with engagement pin 40 on sliding component 30.

Card 1 is the known storage card that has the recording medium that can write down arbitrary data in inside, at the distolateral a plurality of conductive parts (not shown) that are provided with the recording medium electrically conducting of one.

Connector body 10 constitutes by the upper housing 11 that forming sheet metal is constituted with by the downside shell 12 that the formed products of synthetic resin constitutes, and each shell 11,12 forms the state that the two sides part is overlapped.At a distolateral card reader 10a that is provided with of connector body 10, can accommodate the space of card 1 in 11,12 formation of each shell.In a side of upper housing 11, be provided with the flexure strip 11a that engagement pin 40 is pressed to sliding component 30 thrusters again.

Each terminal 20 is configured in the following side in the connector body 10, and Width leaves the compartment of terrain mutually and is maintained on the downside shell 12.Rear end side at each terminal 20 is provided with the contact site 21 that contacts with card 1, and contact site 21 forms outstanding upward state.Front at each terminal 20 is provided with the connecting portion 22 that is connected with not shown substrate, and connecting portion 22 forms the state that bends to the L font downwards.

Sliding component 30 usefulness synthetic resin form, and move up in front and back freely to engage with the Width one of downside shell 12 is distolateral.Rear end side at sliding component 30 is provided with the fastener 31 that the front end card of card 1 is ended usefulness, and fastener 31 forms to the outstanding state in a side of sliding component 30.Again, sliding component 30 application of force means application of force forwards of utilizing not shown spring etc.

Engagement pin 40 is made of the rod component of direction extension forwards, backwards, is configured in a side of connector body 10.The both end sides of engagement pin 40 is respectively to connector body 10 bendings, and distolateral the rotation with a side front of downside shell 12 of one is being connected freely.Again, another of engagement pin 40 is distolateral to engage with the cam path 50 of sliding component 30, constitute on one side with one distolateral be that fulcrum rotates on one side state mobile in cam path 50.

Cam path 50 is set on the side of sliding component 30, is made of the 1st slot part the 51, the 2nd slot part 52 and the 3rd slot part 53.The 1st slot part 51 and the 3rd slot part 53 leave the compartment of terrain mutually and dispose up and down, and the fore-and-aft direction to sliding component 30 is extending respectively.Again, the 2nd slot part 52 is configured between the 1st slot part 51 and the 3rd slot part 53, and direction is extended up and down, and the 1st slot part 51 is communicated with the 3rd slot part 53.

The 1st slot part 51 is made of mutual continuous the 1st interval 51a, the 2nd interval 51b, the 3rd interval 51c and the 4th interval 51d, and the 1st interval 51a is configured in the distolateral of the 1st slot part 51, and it is distolateral that the 4th interval 51d is configured in another of the 1st slot part 51.1st, the 3rd and the 4th interval 51a, 51c, 51d form flat condition respectively, and the 2nd interval 51b up is formed obliquely to the 3rd interval 51c.Be provided with the stage portion 51e that makes the 4th interval 51d side step-down between the 3rd interval 51c and the 4th interval 51d, stage portion 51e tilts to the 2nd slot part 52.Again, in the 2nd interval 51b and the 3rd interval 51c, be provided with the guide portion 51f of engagement pin 40 to Width one distolateral (with the opposition side of the 2nd slot part 52) channeling conduct, guide portion 51f forms step-like, makes the Width one on the bottom surface of groove distolateral distolateral lower than another.That is, as shown in Figure 6 since the engagement pin 40 in the 1st slot part 51 will be to the bottom surface another the distolateral low guide portion 51f side shifting of Width than the 1st slot part 51, so move distolaterally along the Width one of the 1st slot part 51.This occasion, the front end of engagement pin 40 are preferably formed as and are dome shape roughly.

The 2nd slot part 52 is formed flatly, and one is distolateral to be communicated with the 4th interval 51d of the 1st slot part 51.The 2nd slot part 52 forms distolateral and another distolateral state that extends obliquely to the 1st slot part 51 and the 2nd slot part 53 respectively, is provided with in the central engagement pin 40 is blocked fastener 52a only.Again, be provided with the stage portion 52b that makes the 2nd slot part 52 side step-downs between the 2nd slot part 52 and the 4th interval 51d, stage portion 52b to the 3rd slot part 53 at a slant.

The 3rd slot part 53 is made of mutual continuous the 1st interval 53a, the 2nd interval 53b, the 3rd interval 53c and the 4th interval 53d, and the 1st interval 53a is configured in the distolateral of the 3rd slot part 53, and it is distolateral that the 4th interval 53d is configured in another of the 3rd slot part 53.1st, the 2nd and the 4th interval 53a, 53b, 53d are formed flatly respectively, and the 3rd interval 53c forms to the 4th interval 53d toward the state that tilts.This occasion, another distolateral connection of the 1st interval 53a and the 2nd slot part 52.Be provided with the stage portion 53e that makes the 1st interval 53a side step-down between the 1st interval 53a and the 2nd slot part 52, stage portion 53e to the 2nd interval 53b at a slant.Again, the 4th interval 53d is being communicated with the 1st interval 51a of the 1st slot part 52.This occasion is provided with the stage portion 53f that makes the 1st slot part 52 side step-downs between the 4th interval 53d and the 1st slot part 52, stage portion 53f to the 1st slot part 52 at a slant.

In above such card connector that constitutes, when card 1 was inserted card reader 10a, the front end of card 1 was ended by fastener 31 cards of sliding component 30.In addition, when with card 1 when direction of insertion pushes, sliding component 30 moves to the card insert Inbound with card 1, shown in Fig. 5 A, engagement pin 40 moves to the 4th interval 51d from the 1st interval 51a of the 1st slot part 51 through the 2nd and the 3rd interval 51b, 51c.At this moment, engagement pin 40 utilizes the stage portion 53f of the 3rd slot part 53 to be directed to the 2nd interval 51b side of the 1st slot part 51.Then, when removing the pushing of card 1, shown in Fig. 5 B, engagement pin 40 is from the 4th interval 51d of the 1st slot part 51 distolateral the moving to the 2nd slot part 52.At this moment, engagement pin 40 utilizes the stage portion 53e of the 1st slot part 51 to be directed to the 2nd slot part 52 sides.The engagement pin 40 that moves to the 2nd slot part 52 is ended by the fastener 52a card of the 2nd slot part 52, to mobile restriction the forwards.Thus, card 1 is maintained in the connector body 10.Then, when once more with card 1 when direction of insertion pushes, shown in Fig. 5 C, engagement pin 40 moves from the 1st interval 53a of other end side direction the 3rd slot part 53 of the 2nd slot part 52.At this moment, engagement pin 40 utilizes the stage portion 52b of the 2nd slot part 52 to be directed to the 3rd slot part 53 sides.Here, when removing the pushing of card 1, shown in Fig. 5 D, engagement pin 40 moves to the 1st interval 51a of the 1st slot part 51 after moving to the 4th interval 51d from the 1st interval 53a of the 3rd slot part 53 through the 2nd and the 3rd interval 53b, 53c.Thus, card 1 can be discharged in connector body 10.

But each stage portion 51e, 52b of cam path 50,53e, 53f owing to little by little cut down by engagement pin 3 repeatedly, especially, on the stage portion 52b of the stage portion 51e of the 1st slot part 51 and the 2nd slot part 52, form rake 51e ', 52b ' respectively.

On the other hand, fashionable in described card insert, engagement pin 40 is in the 2nd interval 51b of the 1st slot part 51 and the 3rd interval 51c when mobile, as shown in Figure 6A, engagement pin 40 utilizes the guide portion 51f that is located among the 2nd and the 3rd interval 51b, the 51c to Width one distolateral (with the opposition side of the 2nd slot part 52) guiding, and move in the 2nd and the 3rd interval 51b, 51c broad ways one distolateral side.Thus, shown in Fig. 6 B owing on the stage portion 51e of the 1st slot part 51, form the state of described rake 51e ' near the opposition side of the 2nd slot part 52, thus stage portion 51e cut down not residual will be with engagement pin 40 to the side directed part of the 2nd slot part 52.

Like this, adopt the card connector of this example, be located at the 2nd interval 51b of the 1st slot part 51 and the guide portion 51f among the 3rd interval 51c owing to utilize, made the state that near engagement pin 40 mobile the 2nd slot part 52 is guided to the opposition side with the 2nd slot part 52, so utilize engagement pin 40, can form the stage portion 51e that makes the 1st slot part 51 and be cut down the state of formed rake 51e ' near the opposition side of the 2nd slot part 52.Thus, since stage portion 51e cut down not residual will be with engagement pin 40 to the side directed part of the 2nd slot part 52, so the engagement pin 40 that will move to the 4th interval 51d from the 3rd interval 51c of the 1st slot part 51 can be from the rake 51e ' of the 1st slot part 2a directly to the 2nd slot part 52 side shiftings, even stage portion 51e is cut down the function that also can keep cam path 50 reliably.This occasion owing to do not need to increase the width of cam path 50, so sliding component 30 is maximized, helps the miniaturization of connector body 10.In addition, because mobile engagement pin 40 utilizes guide portion 51f to guide to the opposition side of the 2nd slot part 52 all the time near the 2nd slot part 52, even so the 1st slot part 51 in by before the reduction, can make also that to move to another of the 1st slot part 51 reliably from a distolateral engagement pin 40 to other end side shifting of the 1st slot part 51 distolateral.

Again, because it is distolateral distolateral low more step-like than another that guide portion 51f forms Width one on the bottom surface of groove, so the engagement pin 40 in the 1st slot part 51 will be to the bottom surface another the distolateral low guide portion 51f side shifting of Width than the 1st slot part 51, engagement pin 40 can be guided to the opposition side of the 2nd slot part 52 reliably.

In addition, in described example, represented in the 2nd interval 51b of the 1st slot part 51 and the 3rd interval 51c, to form the example of guide portion 51f, but also can only in the 3rd interval 51c, same guide portion 51g be set as Fig. 8 and shown in Figure 9.

Again, in described example, represented guide portion 51f is formed step-like example, but also can be as shown in figure 10, the bottom surface that forms the 1st slot part 51 constitutes guide portion 51h from Width other end side direction one distolateral down heeling condition.

Claims (2)

1, a kind of card connector, have: at one end side has the connector body of card reader, be arranged on another distolateral a plurality of card terminal for connecting of connector body, the sliding component that moves to the card insert Inbound with card, sliding component is discharged the force application component of the direction application of force to card, and the mobile fastened component of engaging freely in the cam path on being located at sliding component, when with card when direction of insertion pushes, fastened component is one distolateral to other end side shifting from the 1st slot part of cam path, when removing the pushing of card, fastened component moves to the 2nd slot part from the assigned position of the 1st slot part and blocks the only assigned position in the 2nd slot part, when once more with card when direction of insertion pushes, fastened component is from distolateral move of the 2nd slot part to the 3rd slot part, when removing the pushing of card, fastened component is to the other end side shifting of the 3rd slot part, it is characterized in that

Near at least the 2 slot part in described the 1st slot part, be provided with from a distolateral fastened component to other end side shifting of the 1st slot part guide portion to the opposition side channeling conduct of the 2nd slot part.

2, card connector as claimed in claim 1 is characterized in that, the Width of the bottom surface of described guide portion by making the 1st slot part one is distolateral to be lower than another distolateral formation.

Images