The present invention relates generally to an electrical connector, and more particularly to an electrical connector with a unitary metallic shell having an outer part and an inner part with a guiding transitional region therebetween.
China Patent No. CN 205693075 issued on Nov. 16, 2016, disclosed an electrical connector equipped with an outer metallic shell wherein the shell forms a pair of inward protrusions around the mating opening of the housing for guiding the side edges of mating tongue of the inserted plug connector. Anyhow, on one hand, the side edges of the inserted mating tongue of the plug connector are further desired to be guided in the mating slot of the receptacle connector rather than only outside of the mating slot. On the other hand, the securement between the shell and the housing is formed on an exterior surface of the housing, thus increasing the dimension of the whole connector disadvantageously.
An improved electrical connector is desired.
An object of the present invention is to provide an electrical connector with an insulative housing, a plurality of contacts retained in the housing, and a metallic shell secured to the housing. The housing includes opposite first wall and second wall and a pair of side walls to generally commonly a mating slot communicating with an exterior via a mating opening. A plurality of passageways are formed in the first wall and the second wall to communicate with the mating slot. The contact includes a contacting section extending into the mating slot and a tail exposed outside of the housing. The shell includes opposite first plate and second plate and opposite side plates to commonly form a receiving cavity above the mating opening. The housing forms a pair of insertion grooves communicatively located by two opposite ends of the mating slot. The opposite side plates further include a pair of downwardly extending securing sections retained in the corresponding insertion grooves, respectively, so as to cooperate with the opposite first wall and second wall to precisely form the mating slot thereamong. The opposite side plates further include a pair of oblique transitional sections respectively located at roots of the pair of securing sections and in the receiving cavity and proximate to the mating opening for guiding consideration.
Referring to
The insulative housing 10 includes a first wall 11 and a second wall 12 opposite to each other with a mating slot 13 therebetween in a transverse/first direction. A mating opening 14 is formed in the upper surface of the housing 10 to communicate the mating slot with an exterior upwardly in a vertical/third direction. A plurality of passageways 15 are formed in the first wall 11 and the second wall 12. Each passageway 15 extends upwardly through the upper surface of the housing. A pair of side walls 16 are linked at two opposite ends of the first wall 11 and the second wall 12 along a longitudinal/second direction perpendicular to the transverse direction. A pair of insertion grooves 17 are formed in interior surfaces of the pair of side walls 16, communicatively facing toward the mating slot 13 oppositely. The pair of insertion grooves 17 extend upwardly through upper surfaces of the housing 10 and are dimensioned larger than the mating slot 13 in the transverse direction.
The contact 20 received within the corresponding passageway 15, includes a contacting section 21 extending into the mating slot 13, a tail section 22 exposed outside of the housing 10, and a retaining section 23 linked between the contacting section 21 and the tail section 22. The retaining section 23 includes barbs 231 on the side edge and embossments 232 on the planar face for interference within the passageway 15 in the three dimensional way. The
The metallic shell 30 is downwardly assembled to the housing 10 and includes a first plate 31, a second plate 32 opposite to each other in the transverse direction, and a pair of side plates 33 linked between the first plate 31 and the second plate 32 in the transverse direction so as to commonly form thereamong a receiving cavity 34 located above the upper surface of the housing 10. Notably, in other embodiments, only one of the first plate 31 and the second plate 32 exists as long as the pair of side plates 33 are only linked to such one of the first plate 31 and the second plate 32. In other words, the shell 30 forms a U-shaped structure instead of a frame structure. The pair of side plates 33 form respectively a pair of notches 333 in upper regions, and a pair of oblique transitional sections 35 and a pair of securing sections 36 extending downwardly therefrom in lower regions. The oblique transitional section 35 is located at a bottom region of the receiving cavity 34 proximate to the mating opening 14. Understandably, the oblique transitional section 35 is used to guide downwardly insertion of the mating tongue of the complementary plug (not shown) into the mating slot 13.
The securing sections 36 extending downwardly from the corresponding oblique transitional sections 35, respectively, are received within the corresponding insertion grooves 17, and cooperate with the first wall 11 and the second wall 12 to commonly precisely form the mating slot 13. Understandably, the securing sections 36 not only secure the shell 30 to the housing 10, but also efficiently protectively confront the mating tongue of the inserted plug (not shown), thus avoiding improper wearing between the side walls 16 and the side edges of the mating tongue of the inserted plug (not shown). The bottom end 331 of each side plate 33 abuts against the upper surface of the housing 10 so as to stabilize the shell 30 upon the housing 10 in addition to the engagement between the securing sections 36 within the insertion grooves 17. Each side plate 33 further includes a pair of notches 332 by two sides of the oblique transitional section 35 for facilitating manufacturability of the transitional section 35. Understandably, after assembled, the bottom end 331 downwardly abuts against the upper surface of the side wall 16 of the housing 10 (
The securing section 36 includes the securing leg 361 and the connection section 362 linked to the oblique transitional section 35. The securing leg 361 is equipped with barbs 363 for interference within the insertion groove 17. The width of the securing leg 361 is smaller than that of the connection section 362 so as to form a T-shaped configuration of the whole securing section 36. An upper end portion of the connection section 362 is slightly located above the upper surface of the side wall 16 so as to assure sufficient protection during mating. The first plate 31 and the second plate 32 further include downwardly extending plates 37 to respectively cover the first wall 11 and the second wall 12. Each downwardly extending plate 37 further includes the mounting legs 371 for mounting the connector 100 upon the printed circuit board (not shown), and a latching section 372 to be fastened into the fixing slot 18 of the corresponding first wall 11 or second wall 12. Notably, after assembled, the shell 30 is retained to the housing 10 by engagement between the bottom end 331 and the upper surface of the side wall 16, and that between the latching section 372 within the fixing slot 18 and that between the securing section 36 within the insertion groove 17.
In the invention, the securing sections 36 replace the side wall 16 to confront the mating slot 13 and the mating tongue of the inserted plug (not shown).
The invention has the following advantages:
Firstly, the securing sections 36 are located inside the housing 10 without occupying additional external space, and may efficiently protect the mating tongue of the inserted plug (not shown).
Secondly, the bottom end 331 of the side plate 31 abuts against the upper surface of the side wall 16, thus avoiding excessive movement during assembling between the housing 10 and the shell 30.
Thirdly, the notches 332 are formed by two sides of the oblique transitional section 35, thus facilitating forming the oblique transitional section 35.
Fourthly, the oblique transitional section 35 is spaced from an upper surface of the corresponding side wall 16, thus avoiding improper deformation of the oblique transitional section 35 during assembling the shell 30 to the housing 10.
Fifthly, the securing section 36 performs dual functions of both securing the shell 30 to the housing 10 and cooperating with the associated oblique transitional section 35 for guiding and protecting the mating tongue of the inserted plug (not shown).
In brief, the securing section 36 and the associated oblique transitional section 35 commonly form an assuring device performing multiple functions including securing, protecting and guiding not only during the mating procedure but also after the mating condition. Generally speaking, the whole shell 30 essentially includes an outer part including the first plate 31, the second plate 32, the pair of side plates 33, the pair of downwardly extending walls 37, and an inner part including the pair of securing sections 36 and the pair of oblique transitional sections 35 associated therewith wherein the outer part provides the receiving cavity 34 for receiving the relatively large holding portion of the inserted plug (not shown) and provides securing between the housing 10 and the shell 30, while the inner part cooperates with the housing 10 to form the mating slot 13 for protectively receiving the relatively small mating tongue of the inserted plug (not shown) and provides the securing between the housing 10 and the shell 30. Understandably, as shown in
Number | Date | Country | Kind |
---|---|---|---|
201810367602.9 | Apr 2018 | CN | national |