The Present Disclosure claims priority to prior-filed Korean Patent Application No. 10-2013-0069051, entitled “Contact Terminal For Card Socket,” filed on 17 Jun. 2013 with the Korean Patent Office. The content of the aforementioned Patent Application is incorporated in its entirety herein.
The Present Disclosure relates, generally, to a card socket contact terminal furnished on an electronic apparatus, and, more particularly, to a card socket contact terminal having a plurality of contact points so that a plurality of contacts can mate with a single card terminal furnished on a card.
Among the various cards furnished on a mobile telephone, SIM cards are loaded with most of the information needed for operating the telephone. In particular, they are loaded with subscriber personal information such as passwords, in addition to relevant encrypted data including the telephone number, network number, etc. Mobile terminals are thus typically furnished with a SIM card socket in the main circuit board mounted within the terminal, and are designed so that the SIM card makes electrical contact with the SIM card socket.
In the SIM card socket, a contact terminal is furnished, where contact occurs with the card terminal furnished on the SIM card. The card terminal and the contact terminal of the socket have a one-to-one correspondence. As is disclosed in Korean Patent No. 10-0919948, a single contact terminal makes contact with a single card terminal. The content of the '948 Patent is incorporated by reference herein in its entirety. According to the '948 Patent, in the housing there are furnished the same number of contact terminals as are furnished on the SIM card. The contact point part of the contact terminal protrudes from the bottom surface of the housing to make contact with the card terminal of the SIM card. If the same number of contact terminals are furnished on the SIM card socket as on the card terminal furnished on the SIM card, as in the '948 Patent, if some contact terminals furnished on the SIM card socket are damaged then the signals cannot be properly transmitted, leading unavoidably to product malfunction.
The purpose of the Present Disclosure, devised in order to resolve the above-described problems, is to provide a card socket contact terminal having a plurality of contact points that can reliably make contact with the card terminal, by virtue of having a plurality of contact points whereby a plurality of contacts can be made with a single card terminal furnished on the card.
The card socket contact terminal of the Present Disclosure, having a plurality of contact points, is furnished on the housing of a card socket furnished on an electronic apparatus, to make contact with a card that holds various kinds of data or information. The card socket comprises main terminals furnished in a number corresponding to the number of card terminals furnished on the card to make contact with the card terminals, and auxiliary terminals that are each connected both to the same card terminal to which the respective main terminal connects and to the respective main terminal. Because a plurality of contacts can be made with a single card terminal, contact can be made with the card terminal via the auxiliary terminal even if the main terminal is damaged. If the auxiliary terminal undergoes elastic deformation in a vertical direction, the main terminal will also undergo elastic deformation in a vertical direction.
The main terminal and auxiliary terminal comprise an upward tilting part extending from the connecting part that connects the main and auxiliary terminals, formed tilting upward obliquely toward the front end so as to have internal elasticity, and a downward-tilting part that tilts downward obliquely from the front end of the upward-tilting part. The main and auxiliary terminals differ in length and in the height of the contact points. Further, the contact point of the main terminal and the contact point of the auxiliary terminal are formed with different depthwise positions. Additionally, the auxiliary terminal is formed longer than the main terminal. The front end thereof is positioned lower than the front end of the main terminal on the housing.
When mounted in the housing, the front end of the auxiliary terminal is located lower than the internal floor of the housing. Further, the main and auxiliary terminals are formed separately from the front end of the connecting part. Additionally, the main terminal is formed with a shape that narrows to left and right from the part that connects to the connecting part to the part before the contact point.
Of the left and right sides of the main terminal, the side located toward the auxiliary terminal is formed at a tilt, so that the widthwise width of the main terminal is reduced approaching the front end. On the connecting part that connects the main and auxiliary terminals, an elasticity reinforcement hole is formed to facilitate elastic deformation of the main and auxiliary terminals without plastic deformation. The elasticity reinforcement hole is increased in widthwise width toward the front end of each terminal.
The card socket contact terminal having multiple contact points has the following effects. First, because a plurality of contact points with the card terminal are formed due to the contact terminal corresponding to each card terminal furnished on the SIM card being divided into a main terminal and auxiliary terminal, even if the contact status is defective due, e.g., to the main terminal being damaged, a defective connection between the contact terminal and card terminal can be prevented due to the auxiliary terminal also being contact to the card terminal, thus enabling product reliability to be maintained.
Second, because the main terminal is formed narrowing toward its tip and an elasticity reinforcement hole is formed on the connecting part, elastic deformation can be facilitated when the SIM card is inserted into or removed from the card socket, so that plastic deformation of the contact terminal can be prevented. Accordingly, the contact terminal is not plastically deformed and returns elastically to its original state after deformation, enabling product quality to be retained over the long term.
Third, because the auxiliary terminal is formed longer than the main terminal and its end is located lower than the main terminal, and when the auxiliary terminal is mounted on the housing it is located below the interior floor of the housing, when a card adapter to which no card is attached is removed from the inserted position in the card socket, then the card adapter can straightforwardly be removed without catching on either the auxiliary or main terminal.
The organization and manner of the structure and operation of the Present Disclosure, together with further objects and advantages thereof, may best be understood by reference to the following Detailed Description, taken in connection with the accompanying Figures, wherein like reference numerals identify like elements, and in which:
While the Present Disclosure may be susceptible to embodiment in different forms, there is shown in the Figures, and will be described herein in detail, specific embodiments, with the understanding that the Present Disclosure is to be considered an exemplification of the principles of the Present Disclosure, and is not intended to limit the Present Disclosure to that as illustrated.
As such, references to a feature or aspect are intended to describe a feature or aspect of an example of the Present Disclosure, not to imply that every embodiment thereof must have the described feature or aspect. Furthermore, it should be noted that the description illustrates a number of features. While certain features have been combined together to illustrate potential system designs, those features may also be used in other combinations not expressly disclosed. Thus, the depicted combinations are not intended to be limiting, unless otherwise noted.
In the embodiments illustrated in the Figures, representations of directions such as up, down, left, right, front and rear, used for explaining the structure and movement of the various elements of the Present Disclosure, are not absolute, but relative. These representations are appropriate when the elements are in the position shown in the Figures. If the description of the position of the elements changes, however, these representations are to be changed accordingly.
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As illustrated, because the main terminal 210 and auxiliary terminal 220 make contact with the same card terminal 2a at the same time, the auxiliary terminal 220 maintains its connection with the card terminal 2a even if the main terminal 210 is damaged (and also maintaining the connection of the main terminal and card terminal even if the auxiliary terminal is damaged). However, configurations are not limited thereto, and it may also be configured so that only the main terminal 210 makes contact with the card terminal 2a and the auxiliary terminal 220 contacts the card terminal 2a only if the main terminal 210 is damaged. The contact point of the main terminal 210 and the contact point of the auxiliary terminal 220 are both located on the top of the internal floor of the housing 100 so that they can make contact with the card terminal 2a before the SIM card 2 has been inserted.
The contact terminal 200 according to this embodiment comprises a main terminal 210, an auxiliary terminal 220, a connecting part 230 and an embedding part 240. The main terminal 210 comprises a first upward tilting part 211 that has internal elasticity due to being formed tilting upward obliquely toward the front end, a first downward-tilting part 212 extending tilting obliquely downward from the front end of the first upward-tilting part 211 and a first contact point 213 formed at the top end of the first upward-tilting part 211 to contact the card terminal 2a. The first upward-tilting part 211 is not formed in a straight line, and is formed in a single upward curve to afford greater elasticity. The auxiliary terminal 220 comprises a second upward tilting part 221 that has internal elasticity due to being formed tilting upward obliquely toward the front end, a second downward-tilting part 222 extending tilting obliquely downward from the front end of the second upward-tilting part 221 and a second contact point 223 formed at the top end of the second upward-tilting part 221 to contact the card terminal 2a.
The connecting part 230 connects the rear parts of the main terminal 210 and auxiliary terminal 220, so that the main terminal 210 and auxiliary terminal 220 are bifurcated from the front end of the connecting part 230. The connecting part 230 has an elasticity reinforcement hole 231 to increase the elasticity of the main terminal 210 and auxiliary terminal 220. If the main terminal 210 and auxiliary terminal 220 are deformed, due to this elasticity reinforcement hole 231, they will be smoothly elastically deformed rather than plastically deformed. In particular, because the elasticity reinforcement hole 231 is reduced in widthwise width from the rear toward the front end of each terminal 210, 220, the widthwise width of the part located on the left or right side of the elasticity reinforcement hole 231 is also reduced toward the front end of the respective terminal 210, 220. As a result, elastic deformation is facilitated.
The embedded part 240 extends from the rear of the connecting part 230 toward either side of the main terminal 210 and auxiliary terminal 220, so that if the housing 100 and contact terminal 200 are overmolded, it is embedded and fixed in place in the housing 100. The main terminal 210 is also formed with narrowing widthwise width from the point at which it bifurcates from the connecting part 230 to the part where the second contact point 223 is formed, enabling straightforward elastic deformation. To this end, the side located toward the auxiliary terminal 220 is formed at a tilt.
The second contact point 223 of the auxiliary terminal 220 is located in front of the second contact point 223 of the main terminal 210. The elevation thereof is lower than that of the second contact point 223. In addition, the auxiliary terminal 220 is formed longer than the main terminal 210. The front end of the auxiliary terminal 220 is located below the front end of the main terminal 210.
SIM cards are manufactured and used in diverse sizes, including mini SIM cards, micro SIM cards, and nano SIM cards. Because these cards differ in size, the sizes of the corresponding sockets must also vary accordingly. If respectively different sockets are thus furnished for each card, this becomes a factor increasing the unit cost of the product, so card adapters have been developed and implemented that enable both large and small SIM cards to be used. Specifically, a large SIM card is simply used as-is without an adapter, while a small SIM card is coupled to the card adapter for use. When mobile telephones are shipped, typically they are shipped with a card adapter coupled to the card socket. In addition, in use sometimes a SIM card is not coupled to the SIM card adapter, and only the card adapter is coupled to the card socket.
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While a preferred embodiment of the Present Disclosure is shown and described, it is envisioned that those skilled in the art may devise various modifications without departing from the spirit and scope of the foregoing Description and the appended Claims.
Number | Date | Country | Kind |
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10-2013-0069051 | Jun 2013 | KR | national |