KR20090072597A - A socket connector for a mobile electric device and the method of manufacturing it - Google Patents

Abstract

A socket connector for a mobile communication terminal and a manufacturing method thereof are provided to make a connection terminal in a dual structure through the injection molding. Upper connection terminals(10) and lower connection terminals are respectively equipped on opposite surfaces in an internal insulator. A connection unit(11) comes in contact with a connection terminal of a plug connector. An end supporting unit(12) is cut and extended at one end of the connection unit. A core entrance(32c) is for enabling a core of an injecting device to enters and leaves between the upper and lower connection terminals.

Description

A socket connector for a mobile electric device and the method of manufacturing it}

The present invention relates to an electrical connector for a mobile communication terminal, and more particularly, to a socket connector for electrically connecting with a plug connector.

In general, a mobile communication terminal is provided with a connector for inputting and outputting power and data. The connector for a mobile communication terminal is composed of a socket and a plug. The socket is coupled to the terminal body, and the plug is coupled to the device to be connected to the terminal body.

In the conventional socket connector for a mobile communication terminal, as disclosed in the applicant's patent application No. 2007-0023129 (application number), a plurality of connection terminals to be connected to the connection terminal of the plug connector as an insert, an internal insulator Is injection molded.

Here, the connection terminals of the socket connector are arranged only on one side (upper surface) of the internal insulator, because on the opposite side (lower surface), a space for entering and exiting the core of the injection apparatus for supporting the connection terminal during injection molding must be secured. to be.

That is, since the internal insulator is injected while one side of the connection terminals arranged in a line in the injection space of the mold is supported by the core of the injection device, the internal insulator is required to manufacture the socket connector by insert-injecting the internal insulator and the connection terminal. Only a form in which connection terminals were arranged on only one side of the substrate could be manufactured.

In order to manufacture a socket connector with a double structure in which connection terminals are arranged on both sides of the internal insulator, the injection connector cannot be manufactured by injection molding but is manufactured by assembling the connection terminal to the finished product of the internal insulator.

As such, the production method of fabricating the internal insulator separately from the connection terminal and assembling it takes a lot of production time and assembly time of each component, thereby greatly reducing productivity and thereby increasing the unit cost. Above all, the assembly is not able to firmly connect the connection terminal and the internal insulator, and there is a problem in that the defective rate is high due to assembly tolerances.

Therefore, the present invention was created to improve the problems of the socket connector for the conventional mobile communication terminal as described above, so that it is possible to manufacture the connection terminal in a dual structure even by injection molding and to improve the durability of the product The purpose is to provide a socket connector for a mobile communication terminal.

Another object of the present invention is to provide a method for manufacturing a socket connector for a mobile communication terminal, which can manufacture the connection terminal in a dual structure even by injection molding and can improve the durability of the product.

In order to achieve the object as described above, the socket connector for a mobile communication terminal according to the present invention, the upper connection terminal and the lower connection terminal in contact with the connecting pin of the plug connector of the mobile communication terminal, respectively on the opposite side of the inner insulator The inner insulator is injection molded using the upper connection terminals and the lower connection terminals as inserts, and a core of an injection apparatus for supporting the lower connection terminals is spaced between the upper connection terminals when the internal insulator is injection molded. The lower connection terminals are arranged between the upper connection terminals so that the core of the injection apparatus for supporting the upper connection terminals can enter and exit the space between the lower connection terminals.

The internal insulator includes a core entry part through which the core of the injection device enters and exits between the upper connection terminals and between the lower connection terminals.

Method for manufacturing a socket connector for a mobile communication terminal according to the present invention in order to achieve the object as described above,

Arrange a plurality of upper connection terminals at regular intervals in the injection space of the mold for injection molding of the internal insulator, and arrange a plurality of lower connection terminals at regular intervals below the upper connection terminals, but between the upper connection terminals. Disposing lower connection terminals on the substrate;

Inserting the core of the injection apparatus into the space between the upper connection terminals to support the lower connection terminals, and inserting the core of the injection apparatus into the space between the lower connection terminals to support the upper connection terminals; And

And injecting an injection product into the injection space while the upper connection terminals and the lower connection terminals are supported by the core of the injection apparatus.

As described above, according to the socket connector for a mobile communication terminal according to the present invention, the core of the injection device enters and leaves the space between the upper connection terminals to support the lower connection terminals, and the core of the injection device is located between the lower connection terminals. By entering and leaving the space to support the upper connection terminals, the upper connection terminals and the lower connection terminals can be manufactured by injection molding integrally with the internal insulator, thereby making it possible to firmly couple the internal insulator and the connection terminals. It has the effect of improving the durability of the product.

Hereinafter, exemplary embodiments of a socket connector for a mobile communication terminal according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 9, a socket connector for a mobile communication terminal according to an embodiment of the present invention includes a plurality of upper connection terminals 10 and upper connection terminals 10 arranged at regular intervals from each other. A plurality of lower connection terminals 20 arranged downwardly, the internal insulator 30 integrally injection molded with the upper connection terminals 10 and the lower connection terminals 20, and the internal insulator 30. It includes an outer shell 40 coupled to the outside.

The inner insulator 30 includes an insulating body 31 coupled to the outer shell 40, and a terminal support part 32 extending in a cantilever shape on one side of the insulating body 31.

The insulating body 31 is fitted into the outer shell 40 and coupled, and the terminal support part 32 is formed at a predetermined distance from the inner wall of the outer shell 40 so that the plug receiving groove 41 into which the connector plug is inserted. ).

The upper connecting terminal 10 and the lower connecting terminal 20 are connected to the connecting terminals 11 and 21 in contact with the connecting terminal of the plug connector, and the front end supporting part 12 which is bent and extended to one end of the connecting portion 11 and 21. (22), the rear end supporting portions 13 and 23 intruding into and coupled to the insulating body 31 of the internal insulator 30, and the terminal portions 14 and 24 extending to the rear end supporting portions 13 and 23; Each includes.

The upper connection terminals 10 and the lower connection terminals 20 are provided on opposite surfaces of the internal insulator 30, respectively.

That is, the upper connection terminal 10 is provided on the upper surface 32a of the terminal support portion 32 of the internal insulator 30, and the lower connection terminal 20 is provided on the bottom surface 32b of the terminal support portion 32.

As shown in FIG. 3, the connecting portion 11 of the upper connecting terminal 10 is exposed to the upper surface 32a of the terminal supporting portion 32, and the connecting portion 21 of the lower connecting terminal 20 is connected to the terminal supporting portion ( 32 is exposed on the bottom face 32b.

As shown in FIG. 3 and FIG. 4, the lower connection terminal 20 is disposed with a predetermined distance below the upper connection terminal 10, and the lower connection below the space 15 between the upper connection terminals 10. Terminals 20 are arranged. Accordingly, the upper connection terminals 10 are disposed above the interspace 25 of the lower connection terminals 20.

That is, one lower connection terminal 20 is disposed below the interspace 15 of the two upper connection terminals 10 and one upper connection above the interspace 25 of the two lower connection terminals 20. The terminal 10 is arranged. As such, the upper connection terminals 10 and the lower connection terminals 20 are alternately disposed.

The tip support parts 12 and 22 of the upper connection terminal 10 and the lower connection terminal 20 are inserted into and coupled to the terminal support part 32 of the internal insulator 30, and are connected at the tip end of the terminal support part 32. Are arranged in line.

The internal insulator 30 is injection molded in the arrangement in which the upper connection terminals 10 and the lower connection terminals 20 are shown in FIG. 4.

An upper core access part 32c through which the upper core 1 of the injection apparatus enters and exits is formed between the upper connection terminals 10 in the terminal support part 32, and a lower part of the injection apparatus is disposed between the lower connection terminals 20. The lower core access part 32d through which the core 2 enters and out is formed.

The method for manufacturing a socket connector for a mobile communication terminal according to the present invention includes disposing a connection terminal in an injection space, supporting the disposed connection terminal with a core of an injection apparatus, and injection molding.

First, in the connection terminal arrangement step, the plurality of upper connection terminals 10 and the lower connection terminals 20 are arranged in the arrangement shown in FIG. 4 in the injection space of the mold for injection molding of the internal insulator 30.

That is, the plurality of lower connection terminals 20 are disposed below the upper connection terminals 10 at regular intervals, but the lower connection terminals 20 are disposed between the upper connection terminals 10.

As such, by placing the lower connection terminal 20 under the interspace 15 of the upper connection terminals 10, the upper core 1 of the injection apparatus is inserted into the interspace 15 of the upper connection terminals 10, thereby lowering the lower connection terminal 20. The connection terminals 20 can be supported.

In addition, by placing the upper connection terminal 10 above the interspace 25 of the lower connection terminals 20 by inserting the lower core (2) of the injection device into the interspace 25 of the lower connection terminals 20, The connection terminals 10 can be supported.

Therefore, injection molding can be performed while simultaneously supporting the upper connection terminals 10 and the lower connection terminals 20 with the core of the injection apparatus.

When the arrangement of the upper connection terminal 10 and the lower connection terminal 20 is completed, the lower connection terminal 20 by inserting the upper core (1) of the injection device into the space 15 of the upper connection terminal (10) I support them. In addition, the lower core 2 of the injection apparatus is inserted into the space 25 between the lower connection terminals 20 to support the upper connection terminals 10.

As such, the internal insulator 30 is formed by injecting an injection material into the injection space while supporting the lower connection terminal 20 and the lower connection terminal 20 with the upper core 1 and the lower core 2 of the injection apparatus. do.

In this case, the upper core access part 32c is formed between the upper connection terminals 10 by the upper core 1 in the process of forming the terminal support part 32, and the lower connection terminal (by the lower core 2). The lower core entry part 32d is formed between the 20).

1 is a perspective view showing a socket connector for a mobile communication terminal according to an embodiment of the present invention,

Figure 2 is an exploded perspective view showing a socket connector for a mobile communication terminal shown in Figure 1,

3 is a perspective view illustrating a coupling state of an internal insulator and a connection terminal illustrated in FIG. 2;

4 is a perspective view showing the arrangement of the connection terminal shown in FIG.

5 is a side view showing a socket connector for a mobile communication terminal shown in FIG. 1;

Figure 6 is a side cross-sectional view taken along the line A-A shown in FIG.

7 is a side cross-sectional view taken along the line B-B shown in FIG. 5,

8 and 9 are schematic side cross-sectional views illustrating a manufacturing process of the internal insulator shown in FIGS. 6 and 7.

※ Explanation of code about main part of drawing ※

1: upper core 2: lower core

10: upper connection terminal 11: connection

12: front end support 13: rear end support

14: terminal portion 20: lower connection terminal

21: connection part 22: tip support part

23: rear end support part 24: terminal part

30: internal insulator 31: insulating body

32: terminal support portion 32a: upper surface

32b: Bottom 32c: Upper core access part

32d: lower core access part 40: outer shell

41: plug receiving groove

Claims (3)

In a socket connector that is removably inserted into a plug connector of a mobile communication terminal, an upper connection terminal and a lower connection terminal contacting the connecting pin of the plug connector are provided on opposite sides of the internal insulator, respectively. , The internal insulator is injection molded using the upper connection terminals and the lower connection terminals as inserts, and a core of an injection device for supporting the lower connection terminals may enter and exit the space between the upper connection terminals when the internal insulator is injection molded. The lower connector is arranged between the upper connection terminals so that the core of the injection device for supporting the upper connection terminals can enter and exit the space between the lower connection terminals. . The method of claim 1, The internal insulator includes a core access portion for entering and exiting the core of the injection apparatus between the upper connection terminals and the lower connection terminals, respectively. In the socket connector that is removably inserted into the plug connector of the mobile communication terminal, the socket connector for the mobile communication terminal is provided with upper and lower connection terminals respectively contacting the connection pins of the plug connector on opposite sides of the internal insulator. In the way, Arrange a plurality of upper connection terminals at regular intervals in the injection space of the mold for injection molding of the internal insulator, and arrange a plurality of lower connection terminals at regular intervals below the upper connection terminals, but between the upper connection terminals. Disposing lower connection terminals on the substrate; Inserting the core of the injection apparatus into the space between the upper connection terminals to support the lower connection terminals, and inserting the core of the injection apparatus into the space between the lower connection terminals to support the upper connection terminals; And And injecting an injection product into the injection space while the upper connection terminals and the lower connection terminals are supported by the core of the injection apparatus.

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