Card connector

Information

  • Patent Grant
  • 6699061
  • Patent Number
    6,699,061
  • Date Filed
    Friday, October 12, 2001
    23 years ago
  • Date Issued
    Tuesday, March 2, 2004
    20 years ago
Abstract
The base plate 31 of the connector housing is provided with the raised portion 50 that fits into one of the recessed portions 26 in the card 20 for the contact pads 27 when the card 20 is inserted. The raised portion 50 is made to function as a stopper to block the card from being inserted further when the card is wrongly inserted back to front, thereby preventing a possible deformation of the contact terminals on the connector side in the event that the card is wrongly inserted.
Description




FIELD OF THE INVENTION




The present invention relates to a card connector mounted on electronic devices, such as cellular phones, telephones, PDAs (personal digital assistants), portable audio devices and cameras, and more specifically to a structure that prevents contact terminals of the card connector from being deformed by a wrong insertion of a card.




BACKGROUND ART




In electronic devices such as cellular phones, telephones, PDAs and digital cameras, a variety of functions are added by inserting an IC card with a built-in CPU or memory IC, such as a SIM (subscriber identity module) card, an MMC (multimedia card), and an SD (secure digital or super density) card.




In a connector for removably accommodating such an IC card, a plurality of contact terminals made from a metal leaf spring are provided in a connector housing to make contact with a plurality of contact pads formed on the front or back surface of the inserted IC card to electrically connect the IC card to the electronic device mounting that connector. The contact pads of the IC card include a power supply pad connected to a power supply line and a plurality of signal pads for transferring various signals. These contact pads are connected via the contact terminals of the card connector to a power supply circuit and various signal processing circuits in the electronic device.




The SD card, one kind of the IC card, is shaped as shown in

FIGS. 8A

to


8


C and FIG.


9


.

FIG. 8

shows a top view of the card and

FIG. 9

shows a bottom view of the card.




In these figures, the SD card


20


has an upper body portion


21


with a thickness of a. At the front right corner the card has a virtually triangular cut-off corner portion


22


for preventing its erroneous insertion. On the back surface side of the upper body portion


21


is formed a lower body portion


23


having a thickness slightly narrower than that of the upper body portion


21


and a predetermined thickness b. That is, the card


20


has stepped portions


24


formed along its both side edges.




On the front part of the lower body portion


23


a plurality of recessed portions (grooves)


26


are formed, separated from each other by a plurality of partition walls


25


. On the bottom surface of these recessed portions


26


are arranged contact pads


27


connected to an IC circuit inside the card. The depth of each recessed portion


26


is almost equal to the height of the lower body portion


23


and therefore the surface of each contact pad


27


is spaced from the front surface of the upper body portion


21


by a distance equal to the thickness a of the upper body portion


21


. On a side surface of the card


20


is arranged a slidable write protect button


28


which is slid to one position to protect the card


20


against being written with data.




As an example of connector for accommodating a double-height structure card, such as the SD card described above, the applicant of this invention filed Japanese Patent Application No. 11-316110 entitled “Card Connector Structure” on Nov. 5, 1999.




According to the invention of this application, in order to provide a connector that can be used commonly for a double-height thick card


20


such as the SD card above and for a single-height thin card (e.g., MMC card) having almost the same thickness a as the upper body portion


21


of the SD card


20


, both side wall portions of a connector housing are formed with a pair of guide grooves that support and guide both side edges of the upper body portion


21


of the double-height thick card


20


and both side edges of the single-height thin card as they are inserted or withdrawn. These guide grooves support those portions of the two cards which have the same thicknesses a. In this connector, when each of these cards is supported in the connector, the distance from the contact pads


27


of one card to the contact terminals of the connector is equal to the distance from the contact pads


27


of the other card to the contact terminals, so that the both cards engage the contact terminals with the same contact pressures.





FIGS. 10A and 10B

show the double-height thick card


20


normally inserted into connector


100


of this invention. A base plate of a connector housing


101


has a plurality of contact terminals


102


arranged parallelly thereon. The connector housing


101


has an abutment wall


103


against which the inserted IC card


20


is pushed. At one corner of the abutment wall


103


there is formed a protruding corner wall


104


with which the cut-off corner portion


22


of the IC card


20


engages. In both side wall portions, the above-described guide grooves


105


are formed. These paired guide grooves


105


support both edges of the upper body portion


21


of the card


20


.




In FIG.


10


A and

FIG. 10B

the card


20


is shown to be normally inserted, so contact portions


102




a


of the contact terminals


102


of the connector


100


engage with the contact pads


27


of the SD card


20


with an appropriate pressure.




In the connector above, when the card


20


is wrongly inserted back to front as shown in FIG.


11


A and

FIG. 11B

, the card


20


can be inserted into the connector


100


until its rear end wall


29


abuts against the corner wall


104


.




When the card is inserted back to front to such a position, however, the contact portions


102




a


of the contact terminals


102


are in an overloaded state where they are pressed excessively by the bottom surface of the card


20


. In this state, the contact terminals


102


are deformed excessively beyond the elastic limit and undergo plastic deformations.




The present invention has been accomplished to overcome this problem. It is therefore an object of this invention to solve the problem by providing a card connector which, if the card is wrongly inserted back to front, can reliably prevent excess deformations of the contact terminals.




DISCLOSURE OF THE INVENTION




According to one aspect, the present invention provides a card connector for holding a card in a connector housing in such a way that contact pads of the card engage with contact terminals arranged in the connector housing, wherein the card has a plurality of recessed portions formed parallelly in a front part thereof with the contact pads arranged in the recessed portions, the card connector comprising: a pair of guide grooves formed in the connector housing to support and guide both side edges of the card; and a raised portion formed in the connector housing to fit into one of the plurality of recessed portions of the card when the card is inserted into the connector.




With this invention, when the card is inserted normally, the raised portion fits into one of the recessed portions in the card for the contact pads. At this time, the contact pads of the card are brought into contact with the contact terminals of the connector without interference from the raised portion.




When the card is wrongly inserted back to front, on the other hand, the raised portion works as a stopper and stops the card being inserted before the contact terminals are displaced by the card in excess of their elastic limit.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a plan view showing one embodiment of a card connector according to this invention.





FIG. 2

is a partly cutaway plan view of the embodiment of FIG.


1


.





FIG. 3

is a front view of the embodiment of FIG.


1


.





FIG. 4

is a partially enlarged view of FIG.


3


.





FIG. 5A

is a plan view showing the state of the connector and a card before the card is inserted into the connector.





FIG. 5B

is a cross section showing the same state as FIG.


5


A.





FIG. 6A

is a partly cutaway plan view showing the state of the connector and the card when the card is normally inserted.





FIG. 6B

is a cross section showing the same state as FIG.


6


A.





FIG. 7A

is a partly cutaway plan view showing the state of the connector and the card when the card is wrongly inserted.





FIG. 7B

is a cross section showing the same state as FIG.


7


A.





FIGS. 8A

,


8


B and


8


C are a plan view, a front view and a cross-sectional view of a double-height thick card, respectively.





FIG. 9

is a bottom view of the double-height thick card.





FIG. 10A

is a partly cutaway plan view showing a connector of a previous invention.





FIG. 10B

is a cross section of FIG.


10


A.





FIG. 11A

is a partly cutaway plan view showing the card wrongly inserted into the connector of the previous invention.





FIG. 11B

is a cross section of FIG.


11


A.











PREFERRED EMBODIMENT OF THE INVENTION




Now, one embodiment of this invention will be described in detail by referring to the accompanying drawings.





FIG. 1

is a plan view showing one embodiment of the card connector according to this invention;

FIG. 2

is a partly cutaway plan view showing essential parts of the invention;

FIG. 3

is a front view of the connector as seen from the direction of arrow D in

FIG. 1

; and

FIG. 4

is a partially enlarged view of FIG.


3


.

FIGS. 5A and 5B

show the state of the connector before the IC card is inserted into it.

FIG. 5B

is a cross section taken along the line V—V of FIG.


5


A.




The card connector


1


is mounted on electronic devices such as cellular phones, PDAs, portable audio devices and digital cameras.




The connector


1


shown in

FIG. 1

to

FIG. 5

can accommodate a double-height thick card


20


with stepped portions, such as an SD card shown in

FIGS. 8A

to


8


C and FIG.


9


. The connector


1


can also accommodate a single-height thin card, such as an MMC card, that has virtually the same shape, size and thickness a as those of the upper body portion


21


of the SD card


20


.




In

FIG. 1

to

FIG. 5

, the card connector


1


has a connector housing


30


integrally formed as one piece from an insulating material such as resin. The connector housing


30


is roughly U-shaped in a plan view so as to have side leg portions.




The IC card


20


is inserted into the connector


1


through a card insertion opening


11


formed at the front of the housing


30


.




The connector housing


30


, as shown in

FIG. 5

, has an abutment wall


12


that connects both side leg portions and with which the front end portion of the inserted IC card engages. At one corner of the abutment wall


12


where the abutment wall


12


and the side leg portion intersect, a protruding corner wall


13


is formed which engages with the cut-off corner portion


22


of the IC card


20


.




As shown in

FIG. 3

, the IC card


20


is guided and supported at both side edges by a pair of guide grooves


14




a


,


14




b


formed in inner side walls of both side leg portions of the housing


30


as it is inserted and retracted.




One of the guide grooves


14




a


extends from a housing front end


19


to the corner wall


13


and the other guide groove


14




b


extends from the housing front end


19


to the abutment wall


12


. The guide grooves


14




a


,


14




b


are formed by upper walls


15


, side walls


16


and lower walls


17


and have their openings directed toward each other.




From the edge of the lower wall


17


of each guide groove


14




a


,


14




b


a second side wall


18


extends vertically downwardly almost at a right angle. For each of the second side walls


18


, a second lower wall is formed, and the upper surface of the second lower wall is flush with the upper surface of a base plate


31


of the housing


30


. A space is formed between the two parallel second side walls


18


.




The base plate


31


forming the bottom wall of the housing


30


has a plurality of grooves


32


in which a plurality of contact terminals


40


are securely fitted. The contact terminals


40


include power supply terminals and signal terminals. Each of the contact terminals


40


has a terminal portion


40




a


soldered to a contact pad on a printed circuit board of the electronic device, a fixed portion


40




b


securely held in the groove


32


, and a contact spring portion


40




c


elastically displaced to make contact with the contact pad


27


of the card


20


. The contact spring portion


40




c


has a contact portion


40




d


protruding upward in an arc from the fixed portion


40




b.






Both side walls forming each of the grooves


32


, as shown in

FIG. 4

, have press-fit grooves (recessed portions)


34


in which left and right side edges of the fixed portion


40




b


of the contact terminal


40


are fitted under pressure. These recessed portions


34


rigidly support the fixed portion


40




b


of each contact terminal


40


.




These contact terminals


40


make electrical connection between the card


20


and the electronic device and at the same time provide an appropriate card holding force by their elasticity.




On both sides of the groove


32


that rigidly supports the rightmost contact terminal


40


, when viewed from the card insertion opening


11


, a pair of raised portions (referred to as ribs)


50


are arranged on the base plate


31


to extend along both sides of the contact terminal


40


. The ribs


50


are formed integral with the base plate


31


. The pair of the ribs


50


have their positions, widths and heights so set that when the card


20


is normally inserted, they fit into one


26




a


of grooves


26


formed between separation walls


25


of the card


20


which is located near the cut-off corner portion


22


(see FIG.


5


A and FIG.


5


B).




These paired ribs


50


function as stoppers that, when the card


20


is wrongly inserted back to front, prevent the card


20


from being inserted to the fully inserted position.




FIG.


6


A and

FIG. 6B

show the card


20


normally inserted into the connector.




When the card


20


is normally inserted into the connector


1


, the side surfaces of the upper body portion


21


of the card


20


are guided by the side walls


16


of the guide grooves


14




a


,


14




b


and the side edge portions of the bottom surface of the upper body portion


21


, i.e., the stepped portions


24


, are supported and guided by the lower walls


17


. The floating of the card


20


due to the elastic force of the contact terminals


40


is prevented by the side edge portions of the top surface of the upper body portion


21


being restricted by the upper walls


15


of the guide grooves


14




a


,


14




b


. The lower body portion


23


of the card


20


is accommodated in the space between the second side walls


18


.




The card


20


can be inserted into the connector to a position where its cut-off corner portion


22


and front end wall engage with the corner wall


13


and the abutment wall


12


, respectively. With the card


20


inserted to this position, the pair of ribs


50


formed on the base plate


31


of the housing


30


fit into the groove


26




a


of the card


20


adjoining the cut-off corner portion


22


of the card


20


. At this time, the contact portion


40




d


of the contact terminal


40


projecting from between the paired ribs


50


is pressed and elastically deformed by the contact pad


27


provided in the groove


26




a


of the card


20


, making elastic contact with the contact pad


27


with an appropriate contact pressure. Other contact terminals


40


not provided with the ribs


50


also engage with associated contact pads


27


with an appropriate contact pressure.




FIG.


7


A and

FIG. 7B

show the card


20


wrongly inserted back to front into the connector.




In this case, too, the card


20


can be inserted into the connector with the upper body portion


21


supported by the guide grooves


14




a


,


14




b


. However, because the rear part of the card


20


is not formed with the grooves


26


as is the front part, if the card


20


is wrongly inserted back to front, the rear end wall


29


of the card


20


abuts against the front end face of the ribs


50


at some point on the way, blocking a further insertion of the card. Hence, with this connector, because the card


20


cannot be inserted any further as it can with the conventional connector, the contact terminals


40


can be prevented from being overloaded and displaced beyond its elastic limit.




In this embodiment, because the stopper structure formed by the pair of ribs


50


is provided, if the card is wrongly inserted back to front, it is possible to block the insertion of the card


20


before the contact terminals


40


are displaced in excess of their elastic limit, thus preventing plastic deformation of the contact terminals


40


.




In the connector


1


of the embodiment above, because the cantilevered contact terminals


40


are arranged to have the terminal portion


40




a


on the front side of the connector


1


and the contact portion


40




d


on the rear side of the connector


1


, the area occupied by the connector


1


can be made smaller than when their arrangements are reversed. That is, when the orientations of the contact terminals


40


are reversed from the above, the terminal portion


40




a


is exposed outside the housing of the connector


1


and the occupied area increases to that extent.




The ribs


50


can be made to function as the stopper as long as the ribs


50


, when the card


20


is inserted, can fit into any one of the grooves


26


without hindering the contact between the contact terminals


40


and the contact pads


27


. That is, the ribs


50


do not need to be provided in a pair on both sides of the contact terminal


40


as in the embodiment above but may be arranged to cover the contact terminal


40


from above (i.e., the ribs may cross the contact terminal


40


).




But, providing the ribs


50


at the sides of the groove


32


, in which the contact terminal


40


is press-fitted, as in the embodiment above has the advantage of facilitating the process of press-fitting the contact terminal


40


in the card insertion direction into the recessed portions


34


formed in the inner walls of the groove


32


because there is no hindrance above the contact terminal


40


.




While in the embodiment above the ribs


50


are provided on both sides of the contact terminal


40


, a rib


50


may be provided on one side only.




Further, although in the embodiment above the ribs


50


are provided adjoining the contact terminal


40


whose contact portion


40




d


is situated nearest to the front side of the connector (card insertion opening side) among the plurality of contact terminals


40


(in this case, a contact terminal


40


situated in front of the corner wall


13


), they may be arranged to adjoin any other contact terminal


40


. Alternatively, the ribs


50


may be provided at different positions adjoining a plurality of contact terminals


40


.




While in the embodiment above, the ribs


50


are applied to the connector construction that supports both side edges of the upper body portion


21


of the card


20


by the guide grooves


14




a


,


14




b


formed in the connector housing


30


, they can also be applied, with similar effects, to a connector construction that supports the bottom surface of the card


20


, i.e., the lower body portion


23


.




While in the embodiment above the top plate of the connector housing


30


covers only the guide grooves


14




a


,


14




b


, the abutment wall


12


and its vicinity, it may cover entire surface or most of the card.




Further, the connector housing may be constructed of a plurality of housing members, for example, an upper housing made from a worked metal plate and a lower housing made from resin.




In the embodiment above, because the card


20


is inserted with its contact pad arranged surface facing down, the contact terminals


40


are arranged on the base plate


31


of the connector housing


30


. In a connector in which the card


20


is inserted with its contact pad arranged surface facing up, the contact terminals


40


may be arranged on the top plate of the connector housing


30


. In such a connector, the pair of ribs


50


need to be provided on the top plate of the connector housing


30


.




Further, while the embodiment above uses the connector for the SD card, the present invention can be applied to connectors for any card as long as the card is of a type that has a plurality of recessed portions


26


formed in its front part with contact pads


27


arranged at the bottoms of the recessed portions


26


. For example, the present invention can also be applied to a connector designed for use with a card which has no stepped portions


24


at its side edges.




Industrial Applicability




As explained above, because the connector housing is provided with a raised portion which, when the card is inserted into the connector, fits into one of the recessed portions formed at the contact pad portions of the card, this raised portion works as a stopper when the card is wrongly inserted back to front. This stopper stops the card being inserted before the contact terminals are displaced in excess of their elastic limit. Thus, the plastic deformation of the contact terminals can be prevented reliably.



Claims
  • 1. A card connector comprising:a connector housing; a plurality of contact terminals arranged in the connector housing and configured to engage a plurality of contact pads on a card; and a raised portion formed in the connector housing such that the raised portion fits into one of a plurality of recessed portions of a properly inserted card, wherein the raised portion is a pair of ribs.
  • 2. A card connector according to claim 1, wherein the raised portion is arranged adjacent to one of the contact terminals.
  • 3. A card connector according to claim 1, wherein the connector housing has a plurality of grooves to rigidly secure and support the contact terminals and the raised portion is arranged in the connector housing adjacent to one of the grooves.
  • 4. A card connector according to claim 1, wherein the raised portion is a pair of ribs, and one of the contact terminals is disposed within a space between the pair of ribs.
  • 5. A card connector according to any one of claims 1 to 4, wherein the contact terminals are elastic leaf springs extending in a card insertion direction, and each of the elastic leaf springs has a terminal portion situated on a front side in the card insertion direction for electrical connection and a contact portion situated on a rear side for engagement with an associated contact pad.
  • 6. A card connector according to any one of claims 1 to 4, wherein the raised portion is formed on a base plate of the connector housing.
  • 7. A card connector according to claim 1, wherein the card has an upper body portion slightly narrower than the upper body portion and having the plurality of recessed portions;wherein the pair of guide grooves of the card connector are configured to support and guide both side edges of the upper body portion of the card as the card is inserted and retracted; and wherein the connector housing has side walls defining a space to accommodate the lower body portion of the card below another space formed between the pair of guide grooves.
  • 8. A card connector for holding a card having a plurality of recessed portions and a plurality of contact pads arranged in the recessed portions, the card connector comprising:a connector housing; a plurality of contact terminals arranged in the connector housing and configured to engage with the contact pads arranged in the recessed portions of a card; a pair of guide grooves formed in the connector housing to support and guide both side edges of a card; and a raised portion formed in the connector housing such that the raised portion and at least one contact terminal fits into one of the recessed portions of a card when the card is normally inserted into the connector.
  • 9. A card connector for holding a card having a plurality of recessed portions and a plurality of contact pads arranged in the recessed portions, the card connector comprising:a connector housing; a plurality of contact terminals arranged in the connector housing and configured to engage with the contact pads arranged in the recessed portions of a card, wherein the contact terminals are elastic leaf springs extending in a card insertion direction, and each of the elastic leaf springs has a terminal portion situated on a front side in the card insertion direction for electrical connection and a contact portion situated on a rear side for engagement with an associated contact pad; a pair of guide grooves formed in the connector housing to support and guide both side edges of a card; and a raised portion formed in the connector housing such that the raised portion fits into one of the recessed portions of a card when a card is normally inserted into the connector, wherein the raised portion is a pair of ribs, and one of the contact terminals is disposed within a space between the pair of ribs.
  • 10. A card connector for holding a card having a plurality of recessed portions and a plurality of contact pads arranged in the recessed portions, the card connector comprising:a connector housing; a plurality of contact terminals arranged in the connector housing and configured to engage with the contact pads arranged in the recessed portions of a card; a pair of guide grooves formed in the connector housing to support and guide both side edges of a card; and a raised portion formed in the connector housing such that the raised portion fits into one of the recessed portions of a card when the card is normally inserted into the connector, wherein the raised portion is formed on a base plate of the connector housing and comprises a pair of ribs, and one of the contact terminals is disposed within a space between the pair of ribs.
Priority Claims (1)
Number Date Country Kind
11-346302 Dec 1999 JP
PCT Information
Filing Document Filing Date Country Kind
PCT/JP00/08608 WO 00
Publishing Document Publishing Date Country Kind
WO01/43235 6/14/2001 WO A
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Entry
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