JP4646449B2 - Card connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card connector for connecting a small and thin card-type device, and more particularly to a technique of a card connector provided with an erroneous insertion prevention mechanism for a card.
[0002]
[Prior art]
2. Description of the Related Art There is known a card connector including an ejecting device in which a card is inserted into a connector body at a set position and ejected from the set position by a so-called push-push operation.
[0003]
This type of card connector is described in Japanese Utility Model Laid-Open No. 1-75983, Japanese Utility Model Laid-Open No. 1-150387, and the like. In the card connectors described in these publications, a terminal member having a contact corresponding to the electrical contact terminal on the card side is incorporated in the connector body. Furthermore, the connector body holds a slider slidably forward and backward in the card insertion direction. And it is designed so that when the card is inserted, the leading end of the card hits the engaging portion on the slider side, and the slider is pushed together with the card.
[0004]
Further, a cam mechanism is employed to enable push / push operations. This cam mechanism is composed of a combination of a cam portion and a pin member corresponding to the cam portion, and is arranged so as to be distributed between the lower surface of the slider and the bottom surface of the connector body corresponding to the lower surface. In this card connector, since the cam portion and the pin member are distributed and arranged in the thickness direction of the connector body, it is difficult to reduce the thickness of the entire card connector.
[0005]
As a card connector in consideration of this point, for example, a connector described in JP-A-11-135192 is known. The card connector described in this publication is equipped with a cam mechanism for alternatively positioning the slider at its forward position, backward position, and an intermediate position thereof. Then, the cam portion and the pin member of the cam mechanism are divided and arranged on the side portion of the slider and the side wall of the connector body facing the side portion, thereby achieving a reduction in thickness.
[0006]
Among this type of card connector, a small-sized card including a memory stick having a length of about several centimeters is used in a connector for a small and thin card that has been attracting attention in recent years. Therefore, in this type of card connector, in order to contribute to miniaturization and weight reduction of electronic devices (for example, mobile computers, digital cameras, portable digital video cameras, etc.) on which the card connector is mounted, further miniaturization of the card connector itself, In addition, the thickness is reduced.
[0007]
[Problems to be solved by the invention]
By the way, in the card connector provided with the push-push type eject device, the card size is small, so that it is difficult to distinguish the front and back of the card itself from the front and the back. Therefore, it is difficult to determine whether the card insertion mode is normal. Therefore, in the existing card connector, the erroneous insertion patterns shown in the following (1) to (3) have occurred.
[0008]
(1) Incorrect insertion due to reverse insertion of the card into the connector body.
(2) Incorrect insertion due to reverse insertion of the card into the connector body.
(3) Reverse insertion of the card in the front-rear direction + reverse insertion of the card in the reverse direction ((1) + (2))
[0009]
When such erroneous insertion occurs, it causes damage or bending of the terminal member provided in the connector body and the electrical contact of the card that contacts the terminal member.
[0010]
Here, the preventive measure against reverse insertion of (2) may be already adopted. For example, it is a method of preventing reverse insertion of the front and back by making the shape of the card insertion slot of the connector body and the end face shape of the card the same shape (similar shape). Existing cards have stepped portions on both sides to vary the card thickness. Corresponding to this, the shape of the card insertion slot is set.
[0011]
Therefore, in principle, the card cannot be inserted upside down. However, in actuality, when the card is inserted more strongly, the upper plate portion of the shield shell is slightly curved away from the housing, so that the card can be inserted even when the card is inserted upside down.
[0012]
From the viewpoint of preventing erroneous insertion of the card, the shield shell may be reinforced or an erroneous insertion preventing member may be separately provided. However, that alone has a great influence on the miniaturization and thinning of the connector.
[0013]
According to the investigation and examination results by the inventors of the present application, among the erroneous insertion patterns of the cards shown in the above (1) to (3), it may be an erroneous insertion pattern having the most back-and-forth reverse insertion patterns of (1). found. The reason for this is that the insertion operation can be performed almost the same as when the card insertion mode is normal.
[0014]
However, when the card is inserted backward and forward in this way, there is a problem that the terminal member on the connector body side is particularly damaged. Therefore, firstly, a solution of this point is desired.
[0015]
Therefore, an object of the present invention is to provide a card connector capable of reliably exhibiting a function of preventing erroneous insertion of a card by a simple method while considering miniaturization and thinning of the connector body.
[0016]
[Means for Solving the Problems]
The present invention includes a card that is electrically connected by insertion into a connector body. The connector body includes a housing provided with a terminal member having a contact portion that contacts an electrical contact of the card, and a metal that covers the housing. Incorrect insertion with a shell, a card insertion slot provided between the metal shell and the housing, and an erroneous insertion prevention mechanism for preventing card insertion during card insertion when the card insertion mode is not normal The prevention mechanism includes a displacement means for displacing the card to the metal shell side during insertion of the card, and a stopper means that abuts against the end of the card displaced by the displacement means to prevent the card from being inserted, and the stopper means Has a configuration provided in a metal shell.
[0017]
According to the present invention, there is provided a card having a displacement means for displacing the card to the metal shell side during card insertion, and a stopper means for preventing the card from being pushed against the end of the card displaced by the displacement means. An erroneous insertion prevention mechanism is provided. Thereby, when the insertion mode of the card with respect to the insertion slot is not normal, insertion of the card can be reliably prevented during the card insertion. Further, since the stopper means is provided on the metal shell, the erroneous insertion preventing function is reliably exhibited even if the metal shell is slightly bent by an external force.
[0018]
The card displacing means is preferably set so as to be displaced in a direction away from the contact portion before the end portion of the card reaches the contact portion of the terminal member. By setting in this way, it is possible to prevent the end portion of the card from coming into strong contact with the contact portion of the terminal member.
[0019]
Further, the card displacing means includes a first displacing means and a second displacing means which are arranged at an interval in the width direction of the housing, and each of the first displacing means and the second displacing means is provided in the housing. It is desirable that the rib is formed. The number of the displacement means may be one, but when two are provided at an interval, the function can be further ensured. In addition, the housing is usually made of resin, and the ribs can be formed together when the housing is molded. Therefore, it is possible to adopt a configuration that does not require a separate member for the displacement means.
[0020]
It is desirable that the rib has a guide slope toward the stopper means as it goes in the card insertion direction. This is because the card can be surely displaced toward the stopper means by the guide slope. Further, since it is a simple slope, it can be formed at the same time as the rib is formed.
[0021]
The metal shell includes an upper plate portion and left and right side plate portions covering the surface of the connector body, and the stopper means includes an opening portion provided in the upper plate portion, and an end portion of the card at an edge portion of the opening portion. It is desirable to set so that the card hits during card insertion. If constituted in this way, it is only necessary to provide an opening in the metal shell, and this can be realized by simple means without separately providing a special member as stopper means.
[0022]
The edge portion of the opening is preferably located closer to the card insertion slot than the contact portion of the terminal member. This is because further insertion of the card can be prevented before the end of the card reaches the contact point. Thereby, a contact part can be protected.
[0023]
When the card insertion mode is normal, it is desirable that the front shape of the card insertion slot and the end surface shape in the card insertion direction match each other. In this way, when the card insertion mode is normal, the card insertion is allowed, and when it is not normal, the card insertion is restricted. In particular, even in the case of reverse insertion in the front-rear direction, it can be inserted without difficulty as in normal insertion, but it cannot be inserted in the middle and the terminal member is protected.
[0024]
It is desirable that thin portions extending in the length direction of the card are formed on both sides of the card, and the thin portions are formed by stepped portions provided on the back surface of the card. When thin portions are formed on both sides of the card, the end face of the card is not rectangular. That is, the key portion is formed by the thin portion with respect to the thick portion.
[0025]
The edge portion of the opening is formed in a linear portion extending in the width direction of the housing, and the length dimension β2 of the linear portion is set to be larger than the maximum width dimension α2 including thin portions provided on both sides of the card. It is desirable. If it sets in this way, it will become a form which the edge part of a card | curd tends to protrude from an opening part. Thereby, the edge part of a card | curs collides with a linear part in the insertion aspect reverse to front and back.
[0026]
It is desirable that the upper part of the metal shell has a strip part extending in the width direction of the housing between the card insertion slot and the opening. Since the band plate portion is easy to bend, the end portion of the card is easily brought into contact with the edge portion of the opening. That is, the greater the amount of bending of the strip, the more the card is displaced away from the housing. Therefore, the end of the card is more reliably brought into contact with the edge portion ahead.
[0027]
Among the edge portions of the opening portion, a small opening portion is provided in the upper plate portion of the metal shell to leave an edge portion having a length necessary for the corner portion of the end of the card to abut, thereby reducing the area of the opening portion. It can also be formed. If comprised in this way, it will become easy to ensure the adsorption | suction area | region by a suction cup, an electromagnet, etc. in the center part of the upper part of a metal shell, or near the center part. Thereby, it is possible to consider contact mounting workability.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a connector for a card having a compact part and a thin part will be described. FIG. 1 is a plan view of a connector body according to Embodiment 1 of the present invention. FIG. 2 is a plan view showing a case where the insertion mode of the card with respect to the connector body is not normal (front-rear reverse insertion). FIG. 3 is a plan view of the housing. FIG. 4 is a front view seen from the card insertion slot side.
[0029]
The card connector 1 is formed in a substantially rectangular shape as a whole. The connector 1 includes an ejection device EJ for a card C that is inserted into the connector body B. The connector body B includes a housing 2 having an insertion slot 21 for the card C and a metal shell 3 that covers the housing 2. The housing 2 is formed of an insulating resin, and includes a bottom plate portion 2a, left and right side wall portions 22 and 23, and a terminal mounting portion 24 provided near one end of the housing 2.
[0030]
The metal shell 3 is formed by punching and bending a thin metal plate having a spring property, and has an upper plate portion 31 and left and right side plate portions 32 and 33. The metal shell 3 is formed of a conductive metal plate so as to exhibit the electromagnetic shielding function of the entire connector.
[0031]
A plurality of terminal members 4 having contact portions 4 a that come into contact with the electrical contacts e of the card C are incorporated in the terminal mounting portion 24. These terminal members 4 are provided at intervals in the width direction of the housing 2. Each terminal member 4 includes a solder tail 4b connected to a circuit board (not shown) in addition to the contact portion 4a that contacts the electrical contact e of the card C. The contact portion 4a and the solder tail 4b are arranged at positions farther away from the insertion opening 21 of the card C in the insertion direction (opposite side) of the card C.
[0032]
In this embodiment, a mechanism for preventing erroneous insertion of the card C electrically connected by insertion into the connector body B is provided. That is, the connector body B includes a housing 2 provided with a terminal member 4 having a contact portion 4a that contacts the electrical contact e of the card C, a metal shell 3 covering the housing 2, and the metal shell 3 and the housing 2. And a card insertion opening 21 provided between the card C and the erroneous insertion prevention mechanism for preventing the card C from being inserted in the middle of the card C insertion when the card C is not inserted normally.
[0033]
This erroneous insertion prevention mechanism includes a first displacement means 201 and a second displacement means 202 that constitute a displacement means for displacing the card C toward the metal shell 3 during the insertion of the card C, and the card C displaced by these displacement means. And stopper means 30 for abutting against the end portion 10 and preventing the insertion of the card C. The stopper means 30 is provided on the metal shell 3.
[0034]
The 1st displacement means 201 of the card | curd C is comprised by the rib provided in the housing 2, as shown in FIGS. The housing 2 is made of an insulating resin. Accordingly, the first displacing means 201 and the second displacing means 202 are provided by forming ribs together when the housing 2 is molded. As a result, there is no need to separately provide a member for each displacement means.
[0035]
The rib as the first displacement means 201 is set so as to be displaced in a direction away from the contact portion 4a before the end portion 10 of the card C reaches the contact portion 4a of the terminal member 4 when the card C is inserted. ing. Specifically, the rib constituting the first displacing means 201 is provided at the back of the ninth terminal member 4 which is the rightmost side when viewed from the insertion slot 21 side of the card C.
[0036]
As shown in FIG. 3, the first displacement means 201 is formed of a rib having an appropriate height and has an end 201a on the insertion port 21 side. The end 201a is located closer to the opening 21 than an edge portion 35a of the opening 35 described later. Therefore, the end portion 10 of the card C inserted in the reverse direction is lifted upward (upper plate portion 31 side) at the end portion 201a. As a result, the end 10 of the card C is designed to abut against the edge portion 35a. The first displacement means 201 includes a groove 201b for allowing the contact portion 4a of the terminal member 4 to escape in the rib thickness direction.
[0037]
The other second displacement means 202 is arranged on the left side (between Nos. 7 and 8) when viewed from the insertion port 21 side. The rib as the second displacing means 202 is provided with a guide inclined surface 202g that goes toward the stopper means 30 as it goes in the card C insertion direction. The guide slope 202g allows the card C to be displaced more reliably toward the stopper means 30. Since this guide slope 202g is also a simple slope, it can be formed at the same time as the rib is formed.
[0038]
Further, by providing the stopper means 30 on the metal shell 3 in this way, it is considered that the erroneous insertion preventing function is surely exhibited even if the metal shell 3 is slightly bent by an external force.
[0039]
The stopper means 30 includes an opening 35 provided in the upper plate portion 31 of the metal shell 3, and is set so that the end portion 10 of the card C abuts the edge portion 35 a of the opening 35 in the middle of the card insertion. . With this configuration, it is only necessary to provide the opening 35 in the metal shell 3. Therefore, this can be realized by simple means without providing a special member as the stopper means 30.
[0040]
The edge 35 a of the opening 35 is located closer to the insertion opening 21 of the card C than the contact 4 a of the terminal member 4. This is intended to prevent further insertion of the card C and protect the contact part 4a before the end 10 of the card C reaches the contact part 4a.
[0041]
As shown in FIG. 5, when the insertion mode of the card C is normal, the front shape of the insertion slot 21 and the end surface shape in the insertion direction of the card C (substantially similar to the shape shown by hatching in FIG. 5) match each other. I'm doing it. With this configuration, when the insertion mode of the card C is normal, insertion of the card C is allowed, and when it is not normal, insertion of the card C is restricted (prevented). Moreover, even if the card C is not inserted normally, the insertion of the card C is restricted by the edge portion 35a of the opening 35.
[0042]
A specific shape of the card C will be described. As shown in FIGS. 2 and 5, a thin portion 11 extending in the length direction of the card C is formed on both sides of the card C, and the thin portion 11 is formed by a step portion 11 a provided on the back surface of the card C. Has been. By forming the thin portions 11 on both sides of the card C, the end face (end portion) 10 of the card C does not become rectangular. That is, the key portion is formed by the thin portion 11 with respect to the thick portion 12. Accordingly, the inner wall of the insertion slot 21 of the card C is provided with convex portions 22a and 23a that enter the stepped portion 11a.
The edge portion 35a of the opening 35 is formed in a straight portion (here, the same portion as the edge portion) extending in the width direction of the housing 2, and one thin wall portion in which the length dimension β2 of the edge portion 35a is provided in the card C. 11 is set to be larger than the width dimension α2 including 11 (see FIG. 1). The opening 35 is formed with a dimension β1 portion shorter than the length dimension β2 of the edge portion 35a. With this setting, the end 10 of the card C is easily protruded from the opening 35. Thus, the end portion 10 of the card C is brought into contact with the edge portion 35a in the reverse insertion mode shown in FIG.
[0044]
In the upper plate portion 31 of the metal shell 3, a band plate portion 36 extending in the width direction of the housing 2 exists between the insertion port 21 of the card C and the opening 35. Since the band plate portion 36 is easily bent, the end portion 10 of the card C is in a form in which the end portion 10 of the card C easily comes into contact with the edge portion 35 a of the opening 35. That is, the greater the amount of bending of the band plate portion 36, the more the card C is displaced away from the housing 2. Therefore, it can be set as the structure which the edge part 10 of the card | curd C collides with the edge part 35a ahead of it more reliably.
[0045]
As shown in FIG. 1, the band plate portion 36 is formed so that the width in the vicinity of the center portion is narrower than both end portions in the length direction. By forming in this way, it is possible to make the band plate portion 36 more easily curved. The opening 35 is formed in a substantially rectangular plane with the edge portion 35a as the long side. By forming in this way, the function of the opening 35 itself can be effectively exhibited.
[0046]
In this embodiment, the dimension β3 of the opening 35 corresponding to the length direction of the housing 2 is set larger than the width dimension β4 of the band plate portion 36. The reason for this setting is that the end portion 10 of the card C can be reliably abutted against the edge portion 35a of the opening 35 by utilizing the bending action of the band plate portion 36. That is, if the dimension β3 is too small, the edge portion 35a is too close to the strip portion 36. As a result, it may be considered that the function of the band plate portion 36 is not effectively exhibited.
[0047]
The electrical contacts e of the card C are arranged in two rows on one side (front surface) of the card C with an interval in the insertion direction of the card C, and each row extends in the width direction of the card C (see FIG. 2). This is because when the electrical contacts e are arranged on one side of the card C, it becomes easier to consider a reduction in the size and thickness of the connector as compared with the case where the electrical contacts e are provided on both sides. That is, when the electrical contacts e are provided on both sides of the card C, the terminal member 4 must also be provided in two stages with respect to the housing 2, and the connector itself becomes thicker accordingly.
[0048]
The ejecting device EJ is pushed in along with the insertion of the card C, and slides between a forward position that is the mounting position of the card C and a backward position that is the initial insertion position of the card C, and the slider 5 is moved to the card. The coil spring 6 is urged so as to return to the backward position side of C, and the cam mechanism 7 restricts the sliding operation of the slider 5 (see FIG. 1).
[0049]
The cam mechanism 7 is provided on the surface of the slider 5, and includes a first guide groove that determines the advance position of the slider 5, a second guide groove (none of which is shown) that determines the retract position of the slider 5, and each guide. And a pin member 8 that is guided along the groove and determines the slide position of the slider 5. The slider 5 is accommodated in a recess provided along the side of the housing 2 and covered with the metal shell 3.
[0050]
In this embodiment, as shown in FIG. 2, when the card C is inserted backward and forward (butt insertion), the end portion of the card C is formed by the end surface 201 a of the first displacement means 201 and the guide slope 202 g of the second displacement means 202. 10 is lifted so that its end 10 hits the edge 35a of the opening 35, preventing further insertion. Since the position where the first displacement means 201, the second displacement means 202, and the stopper means 30 are provided is on the near side of the contact portion 4a, each contact portion 4a is reliably protected.
[0051]
When the insertion mode of the card C is normal, the first displacement means 201, the second displacement means 202, and the stopper means 30 almost do not function and can be inserted to the normal set position.
[0052]
6 and 7 are plan views showing other embodiments of the present invention. In these drawings, the same components as those in the previous embodiment are denoted by the same reference numerals, and the description thereof is simplified.
[0053]
In this embodiment, the configuration of the opening 45 provided in the upper plate portion 31 of the metal shell 3 is different from the previous embodiment, and the other configurations are basically the same. That is, the opening 45 has a rectangular shape in which a length dimension β5 corresponding to the length direction of the housing 2 is formed small, and has a small opening 55 instead.
[0054]
The small opening 55 has a substantially triangular shape and has an edge portion 55 a extending in the width direction of the housing 2. This edge portion 55a exists at a position that coincides with the edge portion 35a of the opening 35 shown in the previous embodiment. However, the small opening 55 is provided at a position close to one side (the 9th terminal member 4 side) in the width direction of the housing 2. The length dimension of the edge portion 55a of the small opening 55 is shorter than that of the edge portion 35a in FIG.
[0055]
A portion 56 of the upper plate portion 31 exists between the small opening 55 and the opening 45. The portion 56 also has a strip shape that is easily bent due to its elasticity. The edge portion 55 a is located closer to the insertion port 21 than the contact portion 4 a of the terminal member 4.
[0056]
That is, in this embodiment, the small opening portion 55 for leaving the edge portion 55a having a length necessary for the corner portion of the end portion 10 of the card C to abut against the edge portion 35a of the opening portion 35 is formed as a metal shell. 3 is provided on the upper plate portion 31 to reduce the area of the opening 45. The reason for this is to make it easy to secure a suction area P by a suction cup, an electromagnet, or the like in the central portion of the upper plate portion 31 of the metal shell 3 or in the vicinity of the central portion. Thereby, it is possible to consider contact mounting workability.
[0057]
【The invention's effect】
As described above, according to the card connector of the present invention, there is an excellent effect that the function of preventing erroneous insertion of a card can be surely exhibited by a simple method while considering miniaturization and thinning. In particular, it is possible to function effectively with respect to a reverse insertion pattern that is a pattern in which an insertion operation can be performed almost the same as when the card is inserted normally.
[Brief description of the drawings]
FIG. 1 is a plan view of a card connector according to an embodiment of the present invention.
FIG. 2 is a plan view showing a card reverse insertion pattern of the card connector according to the embodiment of the present invention.
FIG. 3 is a plan view of the housing of the card connector according to the embodiment of the present invention.
FIG. 4 is a front view of the card connector according to the embodiment of the present invention as viewed from the insertion port side.
FIG. 5 is a front view showing the relationship between the card connector insertion slot and the card according to the embodiment of the present invention.
FIG. 6 is a plan view of a card connector according to another embodiment of the present invention.
FIG. 7 is a plan view showing a card back-and-forth reverse insertion pattern of a card connector according to another embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Connector 2 Housing 2a Bottom plate part 201 1st displacement means 201a End surface 202 2nd displacement means 202g Guide slope 21 Insert port 22 Side wall part 23 Side wall part 22a, 23a Convex part 3 Metal shell 30 Stopper means 31 Upper plate part 32, 33 Side plate Part 4 Terminal member 4a Contact part 4b Solder tail 5 Slider 6 Coil spring 7 Cam mechanism 8 Pin member 10 End part 11 Thin part 11a Step part 12 Thick part B Connector body C Card e Electrical contact EJ Ejecting device

Claims (10)

Comprising a card electrically connected by insertion into the connector body,
The connector body includes a housing provided with a terminal member having a contact portion that contacts an electrical contact of the card, a metal shell that covers the housing, and a card insertion slot provided between the metal shell and the housing. An erroneous insertion prevention mechanism for preventing card insertion during card insertion when the card insertion mode is not normal,
The erroneous insertion prevention mechanism includes a displacement means for displacing the card to the metal shell side during the insertion of the card, and a stopper means that abuts against an end of the card displaced by the displacement means to prevent the card from being inserted. The stopper means is provided in the metal shell ,
The card displacing means includes a first displacing means and a second displacing means that are spaced apart from each other in the width direction of the housing, and each of the first displacing means and the second displacing means is provided in the housing. A card connector which is constituted by a rib formed .   The card connector according to claim 1, wherein the card displacing means is set to be displaced in a direction away from the contact portion before the end portion of the card reaches the contact portion of the terminal member. The rib is provided with a guide slope toward the stopper means side toward the insertion direction of the card, the card connector according to claim 1 or 2. The metal shell includes an upper plate portion and left and right side plate portions that cover the surface of the connector body, and the stopper means includes an opening portion provided in the upper plate portion, and the edge portion of the opening portion includes the opening portion. The card connector according to any one of claims 1 to 3, wherein the end of the card is set so as to abut in the middle of card insertion. The card connector according to claim 4 , wherein an edge portion of the opening is positioned closer to a card insertion slot than a contact portion of the terminal member. The card according to any one of claims 1 to 5 , wherein when the card insertion mode is normal, the front shape of the card insertion slot and the end surface shape in the card insertion direction match each other. connector. On both sides of the card, the thin portion is formed to extend in the longitudinal direction of the card, the thin portion thereof is formed by a stepped portion provided on the back of the card, according to any one of claims 1 6 Card connector. The edge portion of the opening is formed in a linear portion extending in the width direction of the housing, and the length dimension β2 of the linear portion is set to be larger than the maximum width dimension α2 including thin portions provided on both sides of the card. The card connector according to claim 4 or 5 . 6. The card connector according to claim 4 , wherein a band plate portion extending in a width direction of the housing exists between the card insertion opening and the opening on the upper plate portion of the metal shell. Among the edge portions of the opening portion, a small opening portion is provided in the upper plate portion of the metal shell so as to leave an edge portion having a length necessary for the corner portion of the end of the card to abut, thereby reducing the area of the opening portion. The card connector according to any one of claims 4, 5, 8, and 9, which is formed small.

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