1. Field of the Invention
The present invention is generally related to a card connector, and especially to a card connector with switch for detecting a position of an electronic card.
2. Description of Related Art
Integrated circuit (IC) cards are connected to other electronic devices electrically in conjunction with corresponding card connectors. In order to contact or cut electrically between IC cards and other equipments accurately and conveniently, the card connectors commonly equip with switches to achieve above-mentioned object.
U.S. Pat. No. 6,709,281 discloses a commonly card connector for receiving an electrical card. The card connector defines a card receiving space and comprises an insulating housing, a plurality of contacts exposed into the card receiving space and arranged on a bottom wall of the insulating housing and a write protect switch. The write protect switch comprise a first piece of metal made from a stationary piece of metal; and a cantilevered second piece of metal having a projecting touching portion, the projecting touching portion can come in contact with the electrical card. With the electrical card sliding to one of two positions: a protect-on position (write inhibit position) and a protect-off position (write enable position), the two metal pieces can be connected or separated structurally and electrically.
In normal state, the write protect switch can detect a slide position of a electrical card. However, because the first piece meets the second piece simply to connect each other, dust and other matter residing on both of communication portions thereof can not be cleared automatically so as to the connecting performance is not reliable.
Hence, an improved card connector is highly desired to overcome the aforementioned disadvantages of the prior art.
Accordingly, an object of the present invention is to provide a card connector which has a switch for detecting a slide position of a card conveniently and reliably.
To achieve the above-mentioned object, a card connector adapted for receiving a card comprising: an insulating housing defining a card receiving space for accommodating a card and a receiving cavity communicating with the card receiving space; a plurality of contacts retained in the insulating housing; an ejector assembled to the insulating housing and comprising an insulating slider sliding in the receiving cavity and an ejecting member protruding into the card receiving space; and a switch comprising a pair of conductive pieces and a conductive plate, said conductive plate being fixed to said slider, said conductive pieces retained in said insulating housing and engaging with said slider; wherein both of said pair of conductive pieces come into contact with said conductive plate when the card inserts and urges the slider sliding to a first position, while at least one of the conductive piece comes out of contact with said conductive plate when the ejector ejects the card and urges the slider sliding to a second position.
Other objects, advantages and novel features of the present invention will be drawn from the following detailed description of a preferred embodiment of the present invention with attached drawings.
Reference will now be made in detail to the preferred embodiment of the present invention.
Referring to
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The slider 51 is approximately an elongated cube configuration and is received in the receiving cavity 421 to move along the card insertion and ejection direction with the SIM card 6 inserted and ejected. The slider 51 defines a heart-shaped slot 52 recessed downwardly from a top face thereof, a semi-circular receiving hole 57 recessed forwardly from a rear face thereof and a plurality of through slots 511 recessed upwardly from lateral sides of a bottom face 512 to a top face of the slider 51. One end of the spring 54 is disposed around the column 55 of the rear wall 4215 and the other end is disposed into the receiving hole 57 of the slider 51. One end of the pin member 58 is moveably disposed in the heart-shaped slot 52 of the slider 51 and the other end is securely locked in a pinhole 59 of the front wall 4214 of insulating housing 4. The pin member 58 and the heart-shaped slot 52 are served as holding means and can hold the slider 51 in a write enable position where the card 6 is electrically connected with the card connector and can release the slider 51 when ejecting the card 6.
The ejecting member 53 and a metal portion 56 are integrally stamped from a metal sheet. The metal portion 56 comprises a horizontal conductive plate 561, and a holding arm 563 extending upward and rearward from rear end of one side of the horizontal conductive plate 561 adjacent to the card receiving space 44. The holding arm 563 joints the ejecting member 53 to the metal portion 56. A plurality of hooks 562 protrudes upwardly from the holding arm 563 and lateral sides of the horizontal conductive plate 561, respectively. In addition, the holding arm 563 is formed with the rectangular plate-shaped ejecting member 53 bent from a free end thereof and transversely protruding into the card receiving space 44 and locating above the recess 73 of the bottom wall 41. The ejecting member 53 is securely assembled to the slider 51 with the hooks 562 interferentially received in the through slots 511 of the slider 51. The slider 51 is provided with a cutout 513 recessed upwardly from the bottom face 512 thereof so that the horizontal conductive plate 561 is applied.
The switch 3 comprising the horizontal conductive plate 561 and a pair of cantilevered pieces retained in the insulating housing 4 in a row vertical the card insertion/ejection direction. Each piece has a scraping/contacting portion 33 received in the rectangular recess section 4213 and partially exposed into the receiving cavity 421, a cantilevered portion 34 extending rearward from the scraping/contacting portion 421, a stationary portion 36 extending sideward and rearward from the cantilevered portion 34 and retained in the insulating housing 4, and a tail portion 35 exposed into the opening 71 to align with the soldering portions 22 of the contacts 2. The scraping/contacting portion 33 has a contact portion 331 protruding in arc.
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In process of the SIM card 6 inserting the card connector, a rear end of a left side of the card 6 will enter into a cavity defined by the slider 51 and the ejecting member 53 of the ejector 5 to collide with the ejecting member 53. Then, to drive the slider 51 to move along the card insertion direction and to urge the spring 54 to elastically compress. In the meantime, the contact portions 331 of the scraping/contacting portions 33 of the two pieces of the switch 3 scrape and come in contact with the bottom face 512 of the slider 51, then the horizontal plate 561 of the metal portion 56. In addition, the pin member 58 moves along the heart-shaped slot 52 of the ejector 5 to make the slider 51 finally achieve a write enable position where the card 6 is electrically connected with the contacts 2 accurately and fully.
When ejecting the card 6, a rearward push force is exerted to the card 6 to make the pin member 58 move along the heart-shaped slot 52 again so as to release the slider 51 from the write enable position. At this time, the resilient restorable force of the spring 54 urges the slider 51 to move along the card ejection direction so as to eject the card 6 out of the card connector in virtue of the ejecting member 53 of ejector 5. In the meantime, the contact portions 331 of the scraping/contacting portions 33 of the two pieces of the switch 3 scrape and come in contact with the horizontal plate 561 of the metal portion 56, then the bottom face 512 of the slider 51.
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In this switch structure because the scraping/contacting portions 33 of the two pieces of the switch 3 come into or out of contact with the horizontal plate 561 of the metal portion 56 according to the position of the horizontal plate 561 of the metal portion 56 fixed to the slider 51, it is possible to determine at which position, the write enable position or the write inhibit position, the horizontal plate 561 of the metal portion 56 is situated by detecting the connection or disconnection of these pieces of switch 3.
The thin metal ejecting member 53 can endure the force as a more thick normal ejecting member made of insulating materials endures during the card 6 inserts or is ejected, to some degree, the thin metal ejecting member is better to minimize the card connector. On the other hand, the ejecting member 53 is fixed to the slider 51 by the holding arm 563 of the metal portion 56. The joint is more powerful of the ejecting member 53 and the slider 51, than a joint of a ejecting member and a slider of normal integral insulating slider.
As a change embodiment, the pieces may be retained in the insulating housing in two row vertical the card insertion/ejection direction. As a result, one of said pieces of switch comes into contact with the conductive plate always, during the slider sliding between the write enable position and the write inhibit position. While the other one of said pieces of switch comes into contact with the slider or the conductive plate orderly, comes into contact with the conductive plate firstly, then the slider during the slider sliding from the write enable position to the write inhibit position, comes into contact with the slider firstly, then the conductive plate during the slider sliding from the write inhibit position to the write enable position. In addition, the pieces may be retained in the insulating housing to engage with the slider on two or more surfaces, the metal portion comprises several corresponding plates to cover with at least one sidewall of the slider, and the several plates of the metal portion, formed with a plurality of hooks protruding from lateral sides thereof interferentially received in corresponding slots of the slider, are fixed to the slider.
While a preferred embodiment in accordance with the present invention has been shown and described, equivalent modifications and changes known to persons skilled in the art according to the spirit of the present invention are considered within the scope of the present invention as described in the appended claims.
Number | Date | Country | Kind |
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2005 2 0070986 | Apr 2005 | CN | national |
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Number | Date | Country | |
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20060234539 A1 | Oct 2006 | US |