It is popular to provide one single IC card connector with different sets of terminals at different locations to engage the different size/type IC cards which mutually exclusively enter the common receiving space defined in said IC card connector via the same entrance opening. Understandably, the housing of the IC card is provided some key/keyway in the guiding channels to guidably retain the inserted cards in position; anyhow, sometimes a small dimensioned card may be inadvertently inserted into the entrance opening in an improper tilted manner that it may be uncontrollably led to an incorrect position, thus either damaging the terminals or being damaged by the terminals. The safest way is to provide different spaces and/or different entrance openings in the IC connector, while it will increase the total thickness thereof that is opposite to the miniaturization trend. Accordingly, it is desired to provide a safe structure for the IC card connector to regulate different cards' insertion. Some attempts might have been considered, including having a set of terminal module being moveably arranged relative to the other, either linearly or rotatably, while such attempts are so complicated that either no space in the notebook computer to compliantly allow such a movement, or reliability is doubtful.
In fact, in the electrical connector field, for the modular jack connectors there are several different workable approaches to prevent a small plug from incorrectly being inserted into a large sized modular jack which is basically fit for a large plug, for example, U.S. Pat. Nos. 6,257,935 and 6,319,070. Moreover, for the IC card connector as mentioned above, U.S. Pat. No. 5,035,633 specifically discloses a protection member which is located at the entrance opening of the IC card connector and can be moved either linearly or pivotally to allow the corresponding IC card to be inserted into the card connector for mating under a condition that the protection member is controlled by a locking member which moveably releasably locks the protection member while can be released by the inserted card when the correctly sized IC card is inserted into the card entrance opening.
Anyhow, sometimes a small sized card is still required to be inserted into the combo type card connector for mating with the corresponding contacts in the card connector. Therefore, it is expected to modify the protection member of the aforementioned U.S. Pat. No. 5,035,633 for providing an IC card connector with a modified protection device which is capable of retaining a small sized card in position when the small sized card is inserted into the receiving space for mating with the corresponding contacts while not obstructing insertion of a large sized card when the large sized card is inserted into the receiving space for mating with the corresponding contacts.
In an aspect, an electrical card connector includes an insulative housing enclosed by a metallic shield. The housing defines a receiving space with first and second sets of contacts disposed in the housing and communicating with the receiving space. A protection door is pivotally mounted to the housing in an entrance opening blocking the receiving space from an exterior. A moveable locking member releasably locks the protection door. The protection door defines a cutout to leave a small entrance opening to allow a small sized card to be guidably and snugly inserted into the receiving space wherein the protection door is equipped with another small pivotal anti-dust door to cover that small entrance opening. Therefore, the card connector can mutually exclusively receive the large sized card and the small sized card guidably and reliably.
Similar to the aforementioned U.S. Pat. No. 5,035,633, the protection door is equipped with the locking member to prevent movement of the protection door unless the correctly sized card is inserted into the receiving space.
Different from the aforementioned U.S. Pat. No. 5,035,633, the protection door is further equipped with the guiding rail structure on the back of the small entrance opening to guidably support insertion of the small card so that the large card can be guided and retained in position by the housing while the small card can be guided and retained in position by the guiding rail structure of the protection door without involvement of the housing.
References will now be in detail to the preferred embodiments of the invention. While the present invention has been described in with reference to the specific embodiments, the description is illustrative of the invention and is not to be construed as limiting the invention. Various modifications to the present invention can be made to the preferred embodiments by those skilled in the art without departing from the true spirit and scope of the invention as defined by appended claims.
It will be noted here that for a better understanding, most of like components are designated by like reference numerals throughout the various figures in the embodiments. Attention is directed to
A metallic shield 28 encloses the housing 10 and includes opposite top plate 30 and bottom plate 32, and opposite two side plates 34. The top plate forms an large opening 36 therein and two resilient arms 37 thereon beside the large opening 36, and each of the side plate 34 forms a resilient arm 38 thereon.
A protection door 40 having two opposite pivots 42 thereon, is pivotally mounted to a front end of the housing 10 to movably block the large entrance opening 19. The protection door 40 includes a front plate 44 defining a cutout to form a small entrance opening 46 therein wherein in this preferred embodiment the small entrance opening 46 is essentially overlapped with a portion of the large entrance opening 19. A pair of guiding rails 48 extend rearwardly from a back surface 50 of the front plate 44 at positions right beside the small entrance opening 46. A supporting bottom plate 52 is integrally extends rearward from a bottom edge of the front plate 44 so as to cooperate with the pair of guiding rails 48 to hold the inserted small card 300 in position. A wedged stopper 54 is formed at the rear end of one of the guiding rails 48 for engagement with a wedged distal end of the small card 300.
A pivotal door 56 having two pivots 58 thereon, is pivotally mounted to on the back surface 50 of the front plate 44 of the protection door 40 adjacent to the small entrance opening 46. The pivotal door 56 moveably blocks the small entrance opening 46 on the back surface 50 of the front plate 44.
The top wall 12 of the housing 10 defines therein an opening 13 located in alignment with the large opening 36 and cooperating with the large opening 36 to accommodate the protection door 40 therein when the protection door 40 is upwardly raised by the large card 200. The bottom wall 14 of the housing 10 defines therein a recess 15 to accommodate the supporting bottom plate 52 when the protection door 40 is in the locked horizontal position where only the small card 300 can be inserted into the receiving space 18 through the small entrance opening 46. A pair of cutoffs 17 are formed in front ends of the corresponding side walls 16, respectively. A pair of locking members 60 (only one shown in
Each of the locking member 60 includes a confrontation surface 64, at the front, adapted to be actuated to move by a large card 200, and a blocking surface 66, at the back, adapted to block rearward movement of the protection door 40 if the locking member 60 is not actuated by insertion of the large card 200.
Referring to FIGS. 11-13(B), to the connector 1 when no card is received in the receiving space 18, the protection door 40 is in a vertical or non-rotation position to cover the large entrance opening 19 under a condition that the pivotal door 56 is also in a vertical or non-rotation position to cover the small entrance opening 46. Under this situation, when the correctly sized large card 200 is inserted into the receiving space 18 through the large entrance opening 19, two side edges 202 of the card 200 confront and push away the confrontation surface 64 of the blocking member 60 to have the corresponding blocking member 60 outwardly rotated so as to have the blocking surface 66 disengaged from the protection door 40. Therefore, the further rearward movement of the large card 200 further pushes and upwardly raises the protection door 40 under a pivotal manner to have the front plate 44 essentially located in a horizontal position. As mentioned above, under this condition the guiding rails 48 extends through both the opening 13 of the top wall 12 and the large opening 36 of the shield 28.
Oppositely, if no large card 200 is available, a small card 300 is also allowed to be inserted into the receiving space 18 via the small entrance opening 46 wherein the pivotal door 56 is upwardly raised by the inserted small card 300 to a horizontal position under a condition that the protection door 40 is locked by the locking member 60, and the inserted small card 300 is snugly retained by the pair of guiding rails 48 in the transverse direction, and by the supporting bottom plate 52 and the raised pivotal door 56 in the vertical direction.
Once the large card 200 is withdrawn from the housing 10 via a reverse procedure, the protection door 40 is pushed back to the original non-rotation position by the restoration force generated by the resilient arms 37 which are urged by the corresponding protrusions 51 on the back surface 50 of the front plate 44 of the protection door 40 when the large card 200 is received in the receiving space 18. On the other hand, the locking members 60 are also pushed inward back to the original non-rotation position by the resilient arms 38, respectively.
Referring to FIGS. 8(C), 10(A) and 10(B), a moveable first switch contact 70 is associatively located on the protection door 40 having a first contact end 72 and a second contact end 74. Stationary second switch contact 76 and third switch contact 78 are disposed in the housing 10 and electrically connected to the printed circuit board 100 wherein the second switch contact 76 includes a contact section 80 adapted to engage the first contact end 72 of the moveable contact 70 when the protection door 40 is in the non-rotation position, and the third switch contact 78 adapted to be engaged with the second contact end 74 of the moveable contact 70 when the protection door 40 is in the non-rotation position and a small size card 300 pushes rearwardly away the pivotal door 56 and is inserted into the small entrance opening 46.
One feature of the invention is to provide a small entrance opening 46 within the moveable protection door 40 so as to allow insertion of the small card 300 into the receiving space 18 for mating with the corresponding contacts. Another feature of the invention is to provide the guiding rails 48 on the moveable protection door 40 for holding the inserted small card 300. Yet another feature of the invention is to provide the pivotal door 56 to block the small entrance opening 46 so as to form the so-called door-in-door structure for not only dust protection of the connector 1 but also snug guidance of the small card 300.
While the present invention has been described with reference to specific embodiments, the description is illustrative of the invention and is not to be construed as limiting the invention. Various modifications to the present invention can be made to the preferred embodiments by those skilled in the art without departing from the true spirit and scope of the invention as defined by the appended claim. Therefore, person of ordinary skill in this field are to understand that all such equivalent structures are to be included within the scope of the following claims.
The invention relates to IC card connectors, and particularly to the IC card connector equipped with anti-mismating means for assuring the different size/type cards will be correctly received in the correct positions through the respective doors which are associated with each other. This application relates to the copending application Ser. No. 11/001,261 filed Nov. 30, 2004.