KR101424229B1 - Slim type micro sim connector - Google Patents

Abstract

The present invention relates to a slim type micro-shim connector, in which a spring hook formed on both sides of a contact terminal body on both ends of a contact portion is bent by 180 degrees to prevent the tip of the contact portion from bumping against a micro- And the tip of the contact terminal is preliminarily lowered by pre-loading the spring portion of the contact spring to give a contact terminal structure.
According to the present invention as described above, the mounting area in the mobile phone is reduced compared to the conventional connector for the micro SIM card, and in the environment where the micro SIM card is used as a standard and the micro SIM card is used in parallel, There is an effect of preventing the problem that the nano-to-micro-SIM adapter to be used when the card is changed to a terminal to which the existing micro-SIM card is applied is inserted into the existing micro-connector and is not pulled out.

Description

[0001] SLIM TYPE MICRO SIM CONNECTOR [0002]

The present invention relates to a slim type micro-shim connector, and more particularly, to a slim-type micro-shim connector having a structure in which deformation of a connector terminal does not occur due to engagement between a nano to micro adapter and a connector contact terminal, Type micro-shim connector in which a connector mounting area is minimized by constructing the connector so as to be oriented in the inserting direction of a micro-SIM card, and to position the connector-contact portion adjacent to the inserting direction of the micro-sim card.

1, the SIM card 101 of the mobile communication terminal is standardized as Plug-In UICC in the GSM (Gloval System for Mobile Communication) terminal in 1989 by the European Telecommunications Standards Institute (ETSI) Have been used.

However, Apple applied the Micro Sim card (102) standardized in 2004 to the iPad and the iPhone 4, and this year Apple submitted the standardization proposal for the Nano Sim card (103) to ESTI and registered it as standardization. The nanosim card 103 has been applied.

In the meantime, since the micro SIM card 102 has been applied in domestic such as LG Optimus LTE and Samsung Gallaxy S3, the SIM card used in the current mobile communication terminal is divided into the standard SIM card 101 and the micro SIM card 102 have.

The conventional micro-shim connector differs from the connector for the standard sim card 101 in that the common shim connector shown in Fig. 5 has a structure in which the soldering portion lead 501 of the terminal is provided on both sides, that is, In the structure in which both sides are formed by both pins and by three pins in the case of 6 pins, as shown in Fig. 3, the micro-shim connector needs to remove the connector soldering portion lead on the card insertion port side 302 by the demand for the customer's mounting efficiency, The lead 304 is designed to be located only on the insertion opposite side 303 and all of the contact ends 401 shown in FIG. 4 are directed toward the opposite side 303 of insertion.

6, the initial core connector contact terminal 601 having the thickness 1 (604), which is relatively thick compared to the thickness 2 (608), which is a recent slim type product, The contact terminal tip 602 is rotated 180 degrees in the bending portion 603 and is oriented in the kidding direction. This shape is the most stable terminal structure and has a structure that can minimize the mounting area of the connector.

However, as the terminal becomes thinner, the connector becomes thinner according to the trend of the apparatus and changed to the contact terminal 606 of the slim core connector type because the thickness of the connector becomes thin as shown in FIG. 6, The portion 603 can not be formed.

Another disadvantage of this is that the distance from the end of the insertion part to the position of the contact part is longer than that of the conventional structure, so that the length of the connector is increased by 605, resulting in a larger mounting area of the connector.

Further, when the thickness of the connector is reduced and the SIM card is inserted, the contact terminal tip 607 protrudes to the floor (609), causing a problem of interference with the bottom of the printed circuit board (PCB) All the conventional connectors adopt a structure in which the ends of the projected terminals 609 are cut out so that the contact terminal tip 610 floats on the bottom surface of the insulator so that the gap 611 ).

The gap 611 has no problem when inserting or ejecting a general micro SIM card 102. However, as shown in FIG. 7, when the nanotoumicro-SIM adapter 701 having a hole is inserted alone The nano-tip micro-adapter 701 is not pulled out unless the tip of the contact portion 703 of the terminal is deformed due to the deformation of the contact terminal 702 during the ejection.

However, when the iPhone 5 subscriber having the nano SIM card 103 as a standard is changed to a terminal such as a Samsung Galaxy 3 which is a standard of the micro SIM card 102, the existing nano SIM card 103 is connected to the micro SIM card 102 , It is inevitable to use the nanotoumicrosim interface adapter 203 shown in FIG.

If the customer inserts only the adapter into the micro-shim connector without inserting the nanosim card 103 into the nanotoumicro-sim-adapter 203, the nanos-micro-shim adapter 203 can be removed without disassembling the terminal Because of this, customers will face serious problems that can not be used without receiving A / S.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and it is an object of the present invention to provide a mobile communication terminal which can reduce the size of a SIM card, such as a SIM card (Subscriber Identity Module or Universal SIM SIM) card of the present invention.

It is another object of the present invention to provide a contact structure of a micro-shim connector in which deformation of a connector terminal does not occur even when only a nano-toothed micro-adapter 203 is inserted into a hole micro-shim connector.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described, a slim type micro-shim connector according to the present invention includes: a spring hook formed on a contact terminal body on both ends of a contact portion to bend a distal end of the contact portion against a micro- And a contact terminal spring formed on the contact portion of the contact terminal, the contact terminal having a structure in which a tip end of the contact terminal is lowered in advance by being pre-loaded with a spring load.

Further, the micro-shim connector includes: a contact terminal; An insulator for molding and supporting the contact terminal into an insert; And a metal cover which forms a space into which the micro SIM card can be inserted and in which the contact part of the micro SIM card and the contact part of the contact terminal form a predetermined amount of displacement to maintain the contact force, In order to prevent erroneous insertion, a card mis-insertion preventing structure having a step of a predetermined length is formed in a soldering lead on the opposite side of a card insertion, and an intermediate soldering lead is formed in the center of the insert so as to abut the terminal on the side where the micro- , And the soldering lead on the opposite side of the card insertion is formed at the edge of the body insert so as to abut the terminal on the opposite side of the insertion of the micro SIM card.

The body insert may include a carrier formed on one side and the other side; A carrier link connecting the carrier; A contact connection unit provided on one side and the other side of the carrier; And a contact body including three or four contacts on one and the other sides of the carrier by a contact connecting portion, wherein the contact body is connected to the contact body by a contact connecting portion on one side of the carrier, and a middle soldering lead is formed on the contact connecting portion on the other side of the carrier And a contact body connected by the contact body is formed with a soldering lead on the opposite side of insertion of the card.

The contact body is connected to the body insert by the contact connection part so that the soldering lead part protrudes to one side of the contact terminal body and is coupled to the printed circuit board through soldering. The contact terminal spring hanger is formed on the contact terminal spring body on the opposite side to the soldering lead portion. The contact terminal spring hanger connected to the bending step formed on the contact terminal body is bent 180 degrees and the tip of the contact terminal hangers And the tip of the contact portion having the bead shape facing in the card insertion direction is held at a predetermined height by the contact terminal spring hanging on both sides of the contact terminal spring blade formed on the basis of the spring blade step located on the contact terminal spring body .

According to the present invention as described above, the mounting area in the mobile phone is reduced compared to the conventional connector for the micro SIM card, and in the environment where the micro SIM card is used as a standard and the micro SIM card is used in parallel, There is an effect of preventing the problem that the nano-to-micro-SIM adapter to be used when the card is changed to a terminal to which the existing micro-SIM card is applied is inserted into the existing micro-connector and is not pulled out.

1 is a view showing an example of a kind of a sim card currently in use;
2 is a view showing a type of an adapter currently in use;
3 is an exemplary view showing a conventional micro-shim connector.
4 is an exemplary view showing a conventional micro-shim connector terminal structure.
Fig. 5 is an exemplary view showing a structure of a common shim connector. Fig.
6 is an exemplary view showing a structure of a common core connector terminal.
FIG. 7 is an exemplary view showing a latching structure of a nano-tootomicrochip adapter. FIG.
8 is an external view showing a structure of a slim type micro-shim connector according to the present invention.
9 is a view showing a body insert of a slim type micro-shim connector according to the present invention.
10 is a view showing a contact body of a slim type micro-shim connector according to the present invention.
11 is a view showing an insertion structure for a nano-to-microchip adapter of a slim type micro-shim connector according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

8 to 11, the slim type micro-shim connector according to the present invention includes a micro-shim connector 800, a body insert 900, a contact body 1000, and a nanotoumicro-sim adapter 1100, same.

8, the micro-shim connector 800 according to the present invention includes a contact terminal 801, an insulator 802 which forms and inserts the contact terminal 801 into an insert, And a metal cover 803 for maintaining a contact force by forming a predetermined amount of displacement of the contact portion of the contact terminal 801 with the contact portion of the micro SIM card.

In addition, the contact terminal 801 of the slim type micro-shim connector according to the present invention may be composed of six to eight, and in order to prevent mis-insertion of the micro-sim card inserted into the upper portion of the insulator 802, A card mis-insertion preventing structure 805 having a step of a predetermined length is formed on the side of the opposite side of the soldering lead 807.

Further, the end of the contact terminal 801 forms a soldering lead for soldering to the printed circuit board, and the intermediate soldering lead 806 is formed in the center of the insert so as to abut the terminal on the side where the micro SIM card is inserted , And the soldering lead 807 on the opposite side of the card insertion is formed at the edge of the insert so as to abut the terminal on the opposite side to which the micro SIM card is inserted.

9, the body insert 900 according to the present invention includes a carrier 901 formed on one side and a carrier 901 for connecting the carrier 901, and a contact connection portion 902 are provided on one side and the other side of the carrier 901 and the contact body 904 is composed of three or four on one side and the other side of the carrier 901 by the contact connection portion 902. [

An intermediate soldering lead 806 is formed on the contact body 904 connected by the contact connecting portion 902 on one side of the carrier 901 and the contact body 904 connected by the contact connecting portion 902 on the other side of the carrier 901 is formed. The solder lead 807 on the opposite side of the card insertion is formed.

On the other hand, Fig. 10 is a view showing the contact terminal 801 shown in Fig. Referring to FIGS. 8 to 10, the contact body 1000 according to the present invention is as follows.

The contact body 1000 is connected to the body insert 900 by the contact connecting portion 902 and the soldering lead portion 1002 is provided to protrude from one side of the contact terminal body 1001 and is connected to the printed circuit board through soldering And the contact terminal spring body 1003 is configured to have an elastic force so as to face the soldering lead portion 1002. The contact terminal spring blade 1004 contacts the contact terminal spring body 1003 on the surface facing the soldering lead portion 1002, As shown in FIG.

The contact body 1000 is formed by bending a contact terminal spring 1006 connected to the bending step 1010 formed on the contact terminal body 1001 by about 180 degrees and forming a contact terminal hanging step 1011 at its end, The terminal spring hook 1006 pushes and holds both sides of the contact terminal spring 1004 formed on the basis of the spring blade step 1005 located on the contact terminal spring body 1003, The tip portion 1008 having the shape of the contact portion 1007 is configured to have a predetermined height.

The contact body 1000 according to the present invention includes a bending step 1010 at a midway position of a rectangular contact terminal body 1001 extending from the soldering lead portion 1002 and covering the contact terminal spring body 1003, A contact terminal spring 1006 is bent by 180 degrees and a contact terminal hanging step 1011 is formed at the end of the contact terminal spring spring 1006. The contact terminal spring 1006, The contact terminal spring 1004 having the shape of a bead 1007 directed toward the card insertion direction 1009 is pressed against the contact terminal spring 1004 formed at the middle of the contact edge 1008, So as to lower the height.

Referring to FIG. 11, a nanotoumicrosimploader 1100 according to the present invention will be described below.

As shown in FIG. 11, when the nano-micro adapter 1101 is inserted and ejected, an easy insertion can be performed without interference with the contact terminal. This is because the contact tip 1102 faces the card insertion direction and the spring hook The gap 611 held by the conventional slim-type connector can be eliminated by lowering the contact tip 1102 to have a predetermined height.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

101: Standard SIM card 102: Micro SIM card
103: Nano Sim card
201: Microsim adapter 202: Divisor adapter
203: Nano-to-micro-sim adapter
301: Conventional micro-seam connector 302: Card insertion port side
303: Insertion opposite side 304: Solder lead
305: Contact 306: Metal cover
401: Contact tip 402: Card insertion port side
403: Contact 404: Solder lead
501: Solder part lead 502: Contact
601: contact terminal 602: contact terminal end
603: Bending portion 604: Thickness 1
605: length 606: contact terminal
607: Contact terminal tip 608: Thickness 2
609: protrusion 610: contact terminal end
611: Niche
701: Nano-to-micro adapter 702: When picking up
703: contact tip
800: Micro-shim connector 801: Contact terminal
802: Insulator 803: Metal cover
804: Card insertion portion 805: Card misinsertion prevention structure
806: Intermediate soldering lead 807: Card insertion opposite side soldering lead
900: Body insert 901: Carrier
902: Contact connection 903: Carrier connection
904: Contact body
1000: Contact body 1001: Contact terminal body
1002: soldering lead portion 1003: contact terminal spring body
1004: contact terminal spring wing 1005: spring wing step
1006: contact terminal spring hook 1007: bead
1008: Contact tip 1009: Card insertion direction
1010: Bending step 1011: Contact terminal hanging step
1100: Nano-to-micro-adapter 1101: Nano-to-micro adapter
1102: contact tip 1103: spring hangers

Claims (4)

And a tip of a contact portion of the contact terminal is directed to the inserting direction of the micro-
A contact terminal spring hook formed on the contact terminal body at both ends of the contact portion is bent 180 degrees and a contact terminal spring hook bent 180 degrees is connected to the contact portion of the contact terminal in order to prevent the tip of the contact portion from bumping against the micro- Wherein the terminal has a contact terminal structure in which a terminal end of the contact terminal is lowered in advance by being pre-loaded on the terminal spring blade. The method according to claim 1,
The micro-
Contact terminal;
An insulator for molding and supporting the contact terminal into an insert; And
And a metal cover which forms a space into which the micro SIM card can be inserted and maintains a contact force by forming a contact portion of the contact portion of the micro SIM card and a contact portion of the contact terminal by a predetermined amount of displacement,
A card erroneous insertion prevention structure having a step of a predetermined length is formed on a soldering lead on the opposite side of a card insertion side to prevent erroneous insertion of the micro SIM card inserted into the upper portion of the insulator, Is formed at the center of the insert, and the soldering lead on the opposite side of the card insertion is formed at the edge of the body insert so as to abut the terminal on the opposite side of the insertion of the micro-sim card. 3. The method of claim 2,
The body insert comprises:
A carrier formed on one side and the other side;
A carrier link for connecting the carriers;
A contact connection unit provided on one side and the other side of the carrier; And
And a contact body having three or four contacts on one side and the other side of the carrier by the contact connection part,
Wherein an intermediate soldering lead is formed on a contact body connected by a contact connection part on one side of the carrier and a soldering lead on the side opposite to a card insertion side is formed on a contact body connected by a contact connection part on the other side of the carrier. The method of claim 3,
The contact body includes:
And the contact terminal spring body is connected to the body insert by the contact connection part so that the solder lead part protrudes from one side of the contact terminal body and is connected to the printed circuit board through soldering, , The contact terminal spring blade is formed on the contact terminal spring body on the surface opposite to the soldering lead portion,
The contact terminal spring hook is bent at 180 degrees to form a contact terminal hanging step at the end of the contact terminal spring spring connected to the bending step formed on the contact terminal body, And the distal end of the contact portion having a bead shape facing the card insertion direction has a predetermined height.

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