JP2004127731A - Connector for card - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reverse type connector for a card provided with a wrong insertion prevention structure without damaging the card. <P>SOLUTION: This connector for a card is equipped with an insulated housing 2 with a plurality of terminals 1 arranged side by side, and a metal shell 3 mounted so as to cover the insulated housing 2, and is so structured that a contact piece 12 of each terminal 1 is faced to a card receiving cavity 4 formed by the insulated housing 2 and the metal shell 3 to engage with a contact of the card inserted into the cavity 4. The metal shell 3 has a covering plate 31 facing to the upper surface with the contacts formed side by side of the card inserted into the cavity 4 by directing the surface with the contacts formed upward, and is so structured that a wrong insertion preventing projecting part 35 formed in a cross-sectionally U-shaped form by cutting and raising the plate part 31 is projected into the cavity 3, and entered into an entering slot formed in the upper surface of the card 5 when the card 5 is inserted into the cavity 4. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a card connector installed in an electronic device such as a mobile phone or a digital still camera, and more particularly to a card connector capable of restricting erroneous insertion of a card.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been known a mobile phone provided with a card connector adapted to receive a SIM (Subscriber Identity Module) card. In addition, there is known a digital still camera provided with a card connector adapted to receive an SD (Square Digital) card, an MMC (Multi Media Card) card, or the like. The card has a built-in CPU and memory IC, so that it can handle some of the functions of the electronic device.
[0003]
Such a card connector usually includes an insulating housing in which a plurality of terminals are mounted in parallel, and a metal shell provided so as to cover at least a part of the insulating housing. The insulating housing is formed by molding an insulating plastic into a predetermined shape. The terminals are formed by punching a thin metal plate having high spring properties such as phosphor bronze, while the metal shell is formed by punching a conductive thin metal plate such as stainless steel into a predetermined shape. Is done.
[0004]
In the card connector, the insulating housing and the metal shell cooperate to form a card receiving cavity, and each contact piece of a plurality of terminals mounted on the insulating housing faces the card receiving cavity. When the card is inserted into the card receiving cavity, the contact points of the card and the contact pieces of the terminal face each other in a one-to-one relationship, engage with each other and become electrically conductive, and the connection between the card and the circuit in the electronic device is achieved. I have to.
[0005]
The card can be inserted into the card receiving cavity by inserting the card with the contact side facing down (insulating housing side) and inserting it with the contact side facing up (metal shell side). There is a "reverse type".
In the case of a normal type card connector, a ridge projecting into the card receiving cavity is formed on the bottom plate of the insulating housing to prevent the card from being erroneously inserted. There has been known a configuration in which erroneous insertion in which is reversed can be limited. For example, Japanese Patent Application Laid-Open No. 2001-160458 discloses a mechanism for restricting this erroneous insertion in detail (in particular, see FIG. 7 and the description of paragraphs [0038] and [0039] in the specification).
As a reverse type card connector, for example, a mechanism for restricting erroneous insertion disclosed in JP-A-2002-83651 is known. As shown in FIGS. 16, 18, and 22 of the publication, and in particular, as described in paragraph [0039] of the specification, a stopper ridge that abuts the end face of the incorrectly inserted card is provided on the upper part of the insulating housing. It is a structure provided with. Such a structure has a disadvantage in that the height of the card connector increases, and as shown in FIG. 11, the protruding piece b is cut perpendicularly from the plate surface aa facing the upper surface of the card of the metal shell a. There has also been proposed a structure in which the card is raised to protrude into the card receiving cavity c. If the card is erroneously inserted, the end face of the card abuts against a broken surface bb of the protruding piece b (the broken surface is hatched in the figure), so that insertion of the card can be restricted.
[0006]
[Problems to be solved by the invention]
However, in the above-mentioned reverse type, in which the protruding piece b for restricting erroneous insertion is provided in the metal shell by cutting and raising, the thickness of the thin metal plate constituting the metal shell is relatively thin (0.2 mm). Therefore, when the card is erroneously inserted with a strong force to some extent, or when the card is repeatedly inserted, the outer case of the card is a plastic molded product. In some cases, the outer case was damaged, and the outer case was cracked.
[0007]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a reverse-type card connector provided with an erroneous insertion prevention structure that does not damage the card.
[0008]
[Means for Solving the Problems]
A card connector of the present invention made for the above purpose includes an insulating housing in which a plurality of terminals are mounted in parallel, and a metal shell provided so as to cover at least a part of the insulating housing,
A card connector in which a contact piece of the terminal faces a card receiving cavity formed by a joint of an insulating housing and a metal shell to engage with a contact of a card inserted into the card receiving cavity.
The metal shell has a cover plate portion facing a surface on which the contacts of the card inserted into the card receiving cavity are provided in parallel, and the cover plate portion is cut and raised to form an erroneously shaped U-shaped cross section. A projection for preventing insertion protrudes into the card receiving cavity, so that when a card is inserted into the card receiving cavity, the contacts of the card enter into an entrance groove formed in a plane provided in parallel. It is a card connector characterized by the above-mentioned.
[0009]
The erroneous insertion preventing protrusion having a U-shaped cross section may have an L-shaped, J-shaped, or V-shaped cross section.
[0010]
[Action]
According to the card connector of the present invention configured as described above, the area of the cut surface caused by cutting and raising of the erroneous insertion prevention projection that comes into contact with the end face of the erroneously inserted card can be U-shaped, L-shaped, It can be increased by the J-shaped or V-shaped shape, and the concentration of the load can be reduced. By alleviating such load concentration, damage to the card can be reduced.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0012]
The card connector of the embodiment also includes an insulating housing 2 on which a plurality of terminals 1 are mounted in parallel, and a metal shell 3 provided so as to cover the insulating housing 2. As shown in FIG. 8, the insulating housing 2 is formed in a flat L-shape by connecting the terminal mounting portion 21 and the side wall portion 22 at substantially right angles. As shown in FIGS. 6 and 8, the plurality of terminals 1 each have a contact piece 12 continuously extending in a cantilever form from one end of the mounting portion 11 and an L-shaped contact from the other end of the mounting portion 11. The solder tail 13 is formed into a continuously extending shape, and the mounting portion 11 is inserted and locked in the terminal mounting hole 211 formed in the terminal mounting portion 21, so that each contact piece 12 extends the side wall portion 22. The soldering portion 131 of the solder tail 13 is substantially flush with the bottom surface of the insulating housing 2.
[0013]
A metal shell 3 is provided on one side of a substantially rectangular cover plate 31 that covers the upper portion of the insulating housing 2, and a first side plate portion that hangs down along the outer surface of the side wall 22 of the insulating housing 2. 32 is continuous, and on the other side of the cover plate portion 31, a second side plate portion 33, which is opposed to the first side plate portion 32 and hangs down, is formed into a flat inverted U-shape. I have.
[0014]
As shown in FIG. 5, several engagement windows 321 are formed in the first side plate portion 32, and the engagement protrusions 221 are provided so as to protrude from the outer surface of the side wall 22 of the insulating housing 2. Are engaged to integrate the insulating housing 2 and the metal shell 3. A small hanging piece 34 is also provided on the rear edge of the cover plate 31 of the metal shell 3, and an engaging window 341 formed on the hanging piece 34 is also provided on the outer surface of the terminal mounting section 21 of the insulating housing 2. The projection 212 is designed to engage.
[0015]
The card receiving cavity 4 is formed by the insulating housing 2 and the metal shell 3 in front of the terminal mounting portion 21 of the insulating housing 2 and on the side of the side wall 22. The upper side of the card receiving cavity 4 is partitioned by the cover plate portion 31 of the metal shell 3, one side is partitioned by the side wall portion 22 of the insulating housing 2, and the other side is partitioned by the second side plate portion 33 of the metal shell 3. ing. The card receiving cavity 4 is opened at the end of the side wall 22 of the insulating housing 2, and the opening can be used as a card insertion port 41 to insert and remove the card 5 (see FIG. 8). Each side edge of the card 5 inserted into the card receiving cavity 4 is guided by the side wall portion 22 of the insulating housing 2 and the second side plate portion 33 of the metal shell 3 so that the card 5 can approach or move away from the terminal mounting portion 21. It has become.
[0016]
The contact piece 12 of the terminal 1 mounted on the terminal mounting portion 21 of the insulating housing 2 extends in a cantilever shape above the card receiving cavity 4 as shown in FIG. The contact piece 12 of each terminal 1 and the contact 52 provided in parallel on the upper surface 51 of the card 5 are in a one-to-one correspondence between the card receiving cavity 4 and the card 5 inserted with the contact-provided surface facing upward. The contact portion 121 formed on the lower side by bending the tip end of the contact piece 12 is engaged with the contact point 52 so as to be electrically conductive. (That is, it is configured as a reverse type card connector.)
[0017]
Each contact 52 of the card 5 is housed and exposed at the bottom of a contact groove 54 formed on the front end 53 of the upper surface 51 of the card 5. An entry groove 55 is further provided on one side of the group of contact grooves 54 arranged in parallel. A projection 35 for preventing erroneous insertion is provided on the cover plate 31 of the metal shell 3 so as to correspond to the entry groove 55. As shown in FIGS. 1, 2, and 7, the erroneous insertion preventing projection 35 has a projection opening 311 formed in the cover plate portion 31 and the inside thereof is cut and raised toward the card receiving cavity 4 to form a section U. The cut surface 351 (the hatched portion in FIG. 1B) faces the card insertion slot 41 of the card receiving cavity 4. The fracture surface 351 of the erroneous insertion prevention projection 35 is provided so as to be located closer to the card insertion slot 41 than the tip of the contact piece 12 of the terminal 1 (see FIG. 2).
[0018]
When the card 5 is inserted into the card receiving cavity 4, the contact 52 of the card 5 approaches the contact piece 12 of the terminal 1, and finally the contact portion 121 and the contact 52 are engaged, while the contact formed on the card 5 is inserted. The groove 55 approaches the erroneous insertion preventing protrusion 35 provided on the cover plate 31, and the erroneous insertion preventing protrusion 35 enters the entry groove 55 as the card 5 is inserted.
[0019]
An ejection mechanism 6 is provided along the side wall 22 of the insulating housing 2 for removing the card 5 inserted into the card receiving cavity 4. The eject mechanism 6 is a so-called push / push type eject mechanism. As shown in FIG. 8, a slider 61 slidably provided along the side wall 22 and a card insertion slot 41 are provided. And has a well-known structure including a coil spring 62 biasing toward the head, a heart cam groove (not shown in the drawing) formed in the slider 61 and a pin member 63 installed between the side wall 22 and the like. is there. When the card 5 is inserted into the card receiving cavity 4, the locking claw 611 of the slider 61 engages with the locking recess 56 of the card 5, and the slider 61 slides with the card 5 in the insertion direction, and the eject mechanism is formed. When the slider 61 is urged by the coil spring 62 and slides in the direction of the card insertion slot 41, the card 5 can be ejected in the direction of the card insertion slot 41.
[0020]
The rear end 57 of the card 5 indicated by a chain line in FIGS. 2, 4, and 5 is a position when the contact 52 of the card 5 and the contact piece 12 of the terminal 1 are in the engaged state. Is a position when the card 5 is ejected via the slider 61.
[0021]
Next, a case where the card 5 is erroneously inserted in the card connector of the embodiment configured as described above will be described. The incorrect insertion of the card 5 includes a case where the card 5 is inserted with the upper surface 51 facing downward from the front end 53 and a case where the card 5 is inserted with the rear end 57 facing forward, that is, a so-called upside down case. In any case, there is no groove into which the erroneous insertion preventing protrusion 35 provided on the cover plate 31 of the metal shell 3 can enter, so that the front end 53 or the rear end 57 of the card 5 is connected to the erroneous insertion preventing protrusion 35. Collisions can be made, limiting further insertions. In addition, the erroneous insertion prevention protrusion 35 is formed in a U-shape in the fracture surface 351 and has a relatively large area corresponding to the front end 53 or the rear end 57. Inconveniences such as scratching the end 57 can be avoided.
[0022]
Since the fractured surface 351 of the erroneous insertion prevention protrusion 35 is located closer to the card insertion slot 41 than the tip of the contact piece 12 of the terminal 1, the front end 53 or the rear end 57 of the erroneously inserted card 5 is in contact with the contact piece 12. , And damage such as buckling of the contact piece 12 can be prevented.
[0023]
FIG. 9 shows a projection 35 for preventing erroneous insertion according to another embodiment. The inside of the projection opening 311 is cut and raised, and the fracture surface 351 (hatched portion) is formed in an L shape. Also in this case, the area of the fracture surface 351 is made relatively large, so that the concentration of the load is reduced, and the damage to the card 5 can be avoided.
[0024]
As described above, in order to relatively increase the area of the broken surface 351 of the erroneous insertion preventing projection 35, the cross section is further formed into a J-shape as shown in FIG. Can also be achieved by shaping into a V-shape.
[0025]
Since both sides of the card 5 inserted into the card receiving cavity 4 are guided by the side wall portion 22 of the insulating housing 2 and the second side plate portion 33 of the metal shell 3, a state parallel to these is maintained. The erroneous insertion preventing protrusion 35 is provided for the cover plate 31 of the metal shell 3 and disposed on one side of the contact piece 12 group of the terminal 1 for the purpose as in the embodiment described here. Can be achieved. If two or more contact pieces are provided on both sides of the contact piece group 12, the width of the card connector, that is, the size of the insulating housing 2 in the direction in which the terminal mounting portion 21 extends, is disadvantageous.
[0026]
This card connector is installed on a printed circuit board 7 (FIG. 10), and the solder tail 13 of the terminal 1 is soldered to a circuit contact (not shown) on the printed circuit board 7. Therefore, a positioning boss 23 is provided on the bottom surface of the terminal mounting portion 21 of the insulating housing 2 so as to engage with the positioning hole on the printed circuit board 7 side. The metal nail 8 is press-fitted into the tip of the side wall 22 of the insulating housing 2 so that the metal nail 8 and the solder pad of the printed circuit board 7 can be soldered.
[0027]
At the lower edge of the second side plate portion 33 of the metal shell 3, a mounting piece 36 that is continuous at substantially right angles is provided so as to correspond to the metal nail 8. In this embodiment, the number of attachment pieces 36 is one, but a plurality of attachment pieces 36 may be provided at predetermined intervals. Further, instead of the metal nail 8, it may be provided on the first side plate portion 32 side.
[0028]
The mounting piece 36 is provided so as to be substantially flush with the bottom surface of the insulating housing 2, but as shown in FIG. 10, the mounting surface 361 of the mounting piece 36 is slightly above the bottom surface. The protrusion 362 provided to protrude from the mounting surface 361 is flush with the soldering portion 131 formed on the solder tail 13 of the terminal 1. When the metal shell 3 is formed by punching and forming a metal plate, it is extremely difficult to ensure the flatness of the mounting surface 361 of the mounting piece 36 and the soldering portion 131 of the solder tail 13 because it is very difficult. In this manner, the protrusion 362 is provided, and the flatness can be easily obtained by finely adjusting the height of the protrusion 362 at the time of punching and forming.
[0029]
In order to solder the mounting piece 36 on the printed circuit board 7, the mounting piece 36 is plated. However, the plating is formed on the fractured surface 363 that forms the periphery of the mounting piece 36. It is hard to be done. For this reason, it is difficult to form an ideal solder fillet with the solder 9 as shown by the dotted line a in FIG. 10, and the solder 9 is formed as shown by the solid line b, and it is possible to secure a sufficient peel strength. difficult. The protrusion 362 formed on the mounting surface 361 is also effective in this respect, and has a three-dimensional R shape 364 along the outer periphery of the protrusion 362. Thereby, the peel strength of the solder 9 can be enhanced.
[0030]
【The invention's effect】
As described above, according to the present invention, the collision area of the erroneous insertion prevention protrusion that collides with the end face of the erroneously inserted card and restricts insertion can be relatively large, so that the load at the colliding portion can be reduced. It is possible to provide a card connector that can reduce concentration and reduce damage to the card side. Further, since the erroneous insertion prevention projection is provided by cutting and raising the cover plate of the metal shell, it is possible to provide a thinner card connector while avoiding an increase in the height of the card connector. .
[Brief description of the drawings]
FIG. 1A is a front view of a card connector according to an embodiment of the present invention, and FIG. 1B is an enlarged view of a portion A in FIG.
FIG. 2 is a plan view of the card connector according to the embodiment of the present invention.
FIG. 3 is a rear view of the card connector of the embodiment.
FIG. 4 is a left side view of the card connector of the embodiment.
FIG. 5 is a right side view of the card connector of the embodiment.
FIG. 6 is a partially enlarged cross-sectional view of a mounting portion of a terminal of the card connector of the same embodiment.
FIG. 7 is a partially enlarged perspective view of the card connector of the embodiment, viewed from the bottom surface side.
FIG. 8 is a perspective view showing only the insulating housing and the card of the card connector of the embodiment.
FIG. 9 is an enlarged view of an L-shaped erroneous insertion preventing projection according to another embodiment of the present invention, and is a view corresponding to FIG. 1 (b).
FIG. 10 is an enlarged view of a portion of a mounting piece provided on a side plate portion of a metal shell of the card connector according to the embodiment of the present invention.
FIG. 11 is an enlarged view of a part of an erroneous insertion preventing projection provided on a conventional card connector, and is a view corresponding to FIGS. 1B and 9.
FIG. 12 is an enlarged view of a J-shaped erroneous insertion preventing projection according to another embodiment of the present invention, and is a view corresponding to FIG. 1 (b).
FIG. 13 is an enlarged view of a V-shaped erroneous insertion preventing projection according to another embodiment of the present invention, and is a view corresponding to FIG. 1 (b).
[Explanation of symbols]
REFERENCE SIGNS LIST 1 terminal 11 mounting portion 12 contact piece 121 contact portion 13 solder tail 131 soldering portion 2 insulating housing 21 terminal mounting portion 211 terminal mounting hole 212 engaging protrusion 22 side wall 23 positioning boss 221 engaging protrusion 3 metal shell 31 covering Plate portion 311 Projection opening 32 First side plate portion 321 Engagement window 33 Second side plate portion 34 Hanging piece 341 Engagement window 35 Misinsertion prevention protrusion 351 Breaking surface 36 Mounting piece 361 Mounting surface 362 Projection 363 Breakage Cross section 364 R shape 4 Card receiving cavity 41 Card insertion slot 5 Card 51 Top surface 52 Contact 53 Front end 54 Contact groove 55 Entry groove 56 Locking recess 57 Rear end 57a Rear end 6 Eject mechanism 61 Slider 611 Lock claw 62 Coil spring 63 pin member 7 printed circuit board 8 metal nail 9 solder

Claims (6)

An insulating housing (2) on which a plurality of terminals (1) are mounted in parallel; and a metal shell (3) provided to cover at least a part of the insulating housing (2);
The contact piece (12) of the terminal (1) faces the card receiving cavity (4) formed jointly by the insulating housing (2) and the metal shell (3), and is inserted into the card receiving cavity (4). A card connector adapted to engage a contact (52) of a card (5),
The metal shell (3) has a cover plate (31) facing a surface (51) on which contacts (52) of a card (5) inserted into a card receiving cavity (4) are provided in parallel. An erroneous insertion preventing protrusion (35) formed by cutting and raising the cover plate (31) and having a U-shaped cross section is projected into the card receiving cavity (4). When the card (5) is inserted, the contacts (52) of the card (5) are adapted to enter an entry groove (55) formed in a surface (51) provided in parallel. Card connector. An insulating housing (2) on which a plurality of terminals (1) are mounted in parallel; and a metal shell (3) provided to cover at least a part of the insulating housing (2);
The contact piece (12) of the terminal (1) faces the card receiving cavity (4) formed jointly by the insulating housing (2) and the metal shell (3), and is inserted into the card receiving cavity (4). A card connector adapted to engage a contact (52) of a card (5),
The metal shell (3) has a cover plate (31) facing a surface (51) on which contacts (52) of a card (5) inserted into a card receiving cavity (4) are provided in parallel. An erroneous insertion preventing projection (35) formed by cutting and raising the cover plate (31) and having an L-shaped cross section is projected into the card receiving cavity (4), and is inserted into the card receiving cavity (4). When the card (5) is inserted, the contacts (52) of the card (5) are adapted to enter an entry groove (55) formed in a surface (51) provided in parallel. Card connector. An insulating housing (2) on which a plurality of terminals (1) are mounted in parallel; and a metal shell (3) provided to cover at least a part of the insulating housing (2);
The contact piece (12) of the terminal (1) faces the card receiving cavity (4) formed jointly by the insulating housing (2) and the metal shell (3), and is inserted into the card receiving cavity (4). A card connector adapted to engage a contact (52) of a card (5),
The metal shell (3) has a cover plate (31) facing a surface (51) on which contacts (52) of a card (5) inserted into a card receiving cavity (4) are provided in parallel. An erroneous insertion preventing projection (35) formed by cutting and raising the cover plate (31) and having a J-shaped cross section is projected into the card receiving cavity (4). When the card (5) is inserted, the contacts (52) of the card (5) are adapted to enter an entry groove (55) formed in a surface (51) provided in parallel. Card connector. An insulating housing (2) on which a plurality of terminals (1) are mounted in parallel; and a metal shell (3) provided to cover at least a part of the insulating housing (2);
The contact piece (12) of the terminal (1) faces the card receiving cavity (4) formed jointly by the insulating housing (2) and the metal shell (3), and is inserted into the card receiving cavity (4). A card connector adapted to engage a contact (52) of a card (5),
The metal shell (3) has a cover plate (31) facing a surface (51) on which contacts (52) of a card (5) inserted into a card receiving cavity (4) are provided in parallel. An erroneous insertion preventing protrusion (35) formed by cutting and raising the cover plate portion (31) and having a V-shaped cross section is projected into the card receiving cavity (4), and is inserted into the card receiving cavity (4). When the card (5) is inserted, the contacts (52) of the card (5) are adapted to enter an entry groove (55) formed in a surface (51) provided in parallel. Card connector. 5. The card connector according to claim 1, wherein the erroneous insertion prevention protrusion (35) is formed on a cover plate (31) of the metal shell (3). 6. The metal shell (3) has side plates (32, 33) that hang down continuously at right angles to the side edges of the cover plate (31), and at least the lower edges of the side plates (32, 33) One mounting piece (36) is provided so as to be continuous at right angles to the side plate portions (32, 33), and the mounting piece (36) has a projection (362) protruding toward the mounting surface (361). The card connector according to any one of claims 1 to 5, wherein

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