The present disclosure relates to an electrical connector, and particularly to an electrical connector made via an insert-molding process.
USB committee issued a new type electrical connector assembly on Aug. 11, 2014 to allow the plug connector to be inserted into the corresponding receptacle connector in a flippable manner for transmitting both the USB 2.0 and USB 3.1 signals. This new type electrical connector is called USB Type C connector. Because such an electrical connector is relatively small while having more than twenty contacts thereof, the manufacturing method is believed to be a tough issue for the makers.
A new method for making such an electrical connector is desired.
Accordingly, an object of the present disclosure is to provide an electrical connector with the superior electrical and mechanical connection characteristics and easy making characteristics.
To achieve the above object, an electrical connector includes an insulative housing having a tongue portion with opposite upper and lower surfaces, a plurality of upper terminals and a plurality of lower terminals with contacting sections exposed upon the corresponding upper surface and lower surface, respectively. A metallic shielding plate located between upper terminals and the lower terminals. The upper terminals include the power terminals and the grounding terminals, and the lower terminals include the power terminals and the grounding terminals. The tongue portion forms a first type hole in which the upper power terminal mechanically and electrically connects to the lower power terminal, and a second type hole in which either the upper grounding terminal mechanically and electrically connects to an upper face of the shielding plate or the lower grounding terminal mechanically and electrically connects to the lower face of the shielding plate.
The manufacturing method of making the electrical connector includes the following steps. The lower terminals and the shielding plate are commonly integrally formed within a first insulator to form a sub-assembly via a first stage insert-molding process wherein the upper surface of the first insulator forms a plurality of grooves. The upper terminals are disposed in the grooves and a second insulator is applied upon both the upper terminals and the sub-assembly via a second stage insert-molding process to form the full contact module wherein during the second stage insert-molding process the corresponding mold dies presses front end regions of the corresponding power terminals and grounding terminals so as to leave the corresponding first type holes and second type holes in the contact module after the second stage insert-molding process. Understandably, the mold dies are used to reinforce the pressure between the upper power terminal and the lower power terminal, or that between the upper grounding terminal and the shielding plate or between the lower grounding terminal and the shielding plate during the second stage insert-molding process. Notably, such first type holes and second type holes may be alternately filled by another insulator in place of the vacant space therein for preventing improper foreign particle invasion.
Reference will now be made in detail to the embodiments of the present disclosure. Referring to
A manufacturing method of making the electrical connector includes the following steps: providing a plurality of lower terminals 30 and a metallic shielding plate 50 commonly embedded within a first insulator 111 to form a sub-assembly via a first stage insert-molding process wherein the upper surface 121 of the first insulator 111 forms a plurality of grooves; disposing the upper terminals 20 into the corresponding grooves and applying the second insulator 112 upon the sub-assembly to form the complete contact module 10 via a second stage insert-molding process wherein the upper surface 122 of the second insulator 112 forms a plurality of first/upper holes 13, and the lower surface 142 of the second insulator 112 forms a plurality of second/lower holes 14, and the front abutting section 41 of the upper grounding terminal 21 and the front abutment section 43 of the upper power terminal 22 are exposed in the corresponding first holes 13 and the front abutting section 41 of the lower grounding terminal 31 and the front abutment section 43 of the lower power terminal 32 are exposed in the corresponding second holes 15. The contacting sections of the upper terminals 20 and those of the lower terminals 30 are exposed upon the upper surface 122 and the lower surface 142 respectively. The contact module 10 is assembled into the shell 50.
Notably, during forming the second insulator 112, a first set of mold dies press the front abutting sections 41 of both the upper grounding terminals 21 and the lower grounding terminals 31 against the shielding plate 50, and a second set of mold dies press the front abutment sections 43 of the upper power terminal 22 against the front abutment section 43 of the lower power terminal 32 for assuring firm abutment therebetween after the complete contact module 10 is formed. Understandably, the rear abutment section 42 of the upper grounding terminal 21 and that of the lower grounding terminal 31 are arranged in a similar way with the corresponding upper and lower holes. Notably, those holes may be successively filled with the third insulator for preventing foreign particle invasion.
While a preferred embodiment in accordance with the present disclosure has been shown and described, equivalent modifications and changes known to persons skilled in the art according to the spirit of the present disclosure are considered within the scope of the present disclosure as described in the appended claims.
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2016 1 0479259 | Jun 2016 | CN | national |
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Number | Date | Country | |
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20170373408 A1 | Dec 2017 | US |