1. Field of the Invention
The present invention relates to a connector, and more particularly to a micro plug connector such as a Micro Universal Serial Bus (Micro USB) plug connector that has an insulative housing and a metal shell firmly covering the insulative housing to improve the structural strength and durability of the micro plug connector.
2. Description of Related Art
Universal Serial Bus (USB) 2.0 protocol with the plug-and-play function is widely used applied to various electronic devices. Electronic devices such as desktops, flash drives, external hard drives, cellular phones and laptops usually have USB 2.0 connectors to implement the connection with other electronic devices.
Portable devices such as laptops and cellular phones are designed more and more compact to facilitate the storage and carrying thereof. Therefore, Micro-USB connectors are further developed and are more compact when compared to the USB 2.0 connectors so that the Micro-USB connectors may be easily assembled on the portable electronic devices.
However, the conventional Micro-USB plug connector has weak structure and the metal shell is not firmly mounted on the insulative housing of the plug connector. When the plug connector is connected to a cable, rotating the cable relative to the plug connector over 180 degrees would easily detach wires of the cable from terminals of the plug connector to cause failure of the signal transmission between the plug connector and the cable. Therefore, conventional Micro-USB plug connectors in the market are seldom qualified under the rotary test of the USB Implementers Forum (USB-IF). In other words, those conventional Micro-USB plug connectors are disconnected easily from the cables when rotated relative to the cables.
To overcome the shortcomings, the present invention provides a micro plug connector to mitigate or obviate the aforementioned problems.
The main objective of the invention is to provide a micro plug connector such as a Micro Universal Serial Bus (Micro USB) plug connector that has an insulative housing and a metal shell firmly covering the insulative housing to improve the structural strength and durability of the micro plug connector.
A micro plug connector in accordance with the present invention comprises an insulative housing, a plurality of terminals, a pair of positioning hooks and a metal shell. The insulative housing has a base and a tongue protruding from the base. The terminals and positioning hooks are mounted through the base into the tongue. The metal shell covers the insulative housing and has a front cover and a rear cover. The front cover is mounted around the tongue and has a connecting plate protruding from the front cover and partially covering the bottom of the base. The rear cover formed on the front cover and covers the base and the connecting plate of the front cover. The front and rear covers double cover the insulative housing to strengthen the structures of the micro plug connector and prevent inadvertent disassembly or failure of the micro plug connector.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
The insulative housing (10) has a base (11) and a tongue (12).
With further reference to
The tongue (12) is formed on and protrudes from the front (111) of the base (11) and has a front end (121), a top surface (123), a bottom surface, two opposite sides (125), a space (126), a plurality of terminal slots (127) and two hook slots (128). The space (126) is defined in the top surface (123) adjacent to the front end (121), may accommodate a terminal-mount of a socket connector corresponding to the micro plug connector and has an inner bottom surface. The terminal slots (127) are defined in the inner bottom surface of the space (126) and communicate respectively with the terminal holes (110). The hook slots (128) are defined in the top surface (123) respectively adjacent to the sides (125) of the tongue (12) and communicate respectively with the hook holes (118).
The connection bracket (20) is mounted on the rear (112) of the base (11) and has a front end (21), a rear end, a top surface (23) and two opposite sides and may further have a plurality of positioning holes (213), a plurality of terminal channels (211) and a plurality of locking slots (231). The positioning holes (213) are defined in the front end (21) of the connection bracket (20) and are mounted respectively around the positioning posts (119) of the base (11). The terminal channels (211) are defined in the front end (21) of the connection bracket (20). Each of outermost two of the terminal channels (211) has a positioning bore (212) defined in the front end (21) of the connection bracket (20), communicating with the outermost terminal channel (211) and having a triangular cross section. The locking slots (231) are defined in the top surface (23) of the connection bracket (20) and each locking slot (231) has a closed front end and an open rear end. The rear end of the connection bracket (20) may be mounted on a cable so that the micro plug connector is connected to the cable.
With further reference to
The connecting portion (315, 325) is mounted in one of the terminal channels (211) of the connection bracket (20), may be connected to a cable through wires or be connected to printed circuit board by a soldering process and has a thickness.
The root (311, 321) is formed on and protrudes from the connecting portion (315, 325), is mounted in one of the terminal holes (110) adjacent to the rear (112) of the base (11) and has a thickness larger than that of the connecting portion (315, 325).
The mounting portion (312, 322) is formed on and protrudes from the root (311, 321) and is mounted in one of the terminal holes (110) and may have teeth biting the inner surface of the terminal hole (110).
The resilient arm (313, 323) is formed on and protrudes from the mounting portion (312, 322) and is mounted in one of the terminal slots (127).
The contacting portion (314, 324) may be triangular, is formed on and protrudes from the resilient arm (313, 323), is mounted in one of the terminal slots (127) and may electrically contact a terminal of the socket connector corresponding to the micro plug connector.
The second terminals (32) may be charging terminals so that an electronic device including the micro plug connector may be charged through the charging terminals. Each second terminal (32) may further have a plurality of interfering tabs (326). The interfering tabs (326) are formed on and protrude transversely from the connecting portion (325) of the second terminal (32) and are mounted in one of the positioning bore (212) of one of the outermost terminal channels (211) in the connection bracket (20). Adjacent two of the interfering tabs (326) are angled and staggered to extend respectively along two directions.
With further reference to
The mounting section (41) is mounted in a corresponding hook hole (118) of the base (11) and may have an upper positioning tab (42) and a lower positioning tab (43). The upper positioning tab (42) is L-shaped, is formed and protrudes transversely from the mounting section (41), is mounted in the upper transverse passageway of the corresponding hook hole (118) and has teeth (421) biting the inner surface of the corresponding hook hole (118). The lower positioning tab (43) is formed on and protrudes transversely from the mounting section (41) and is mounted in the lower transverse passageway of the corresponding hook hole (118).
The resilient section (46) is formed on and protrudes forwards from the mounting section (41) and is mounted in the corresponding hook hole (118) of the base (11).
The hooking member (47) is formed on and protrudes from the resilient section (46) and extends out of the corresponding hook hole (118) of the base (11) to hook detachably on the corresponding socket connector.
The extension section (45) is formed on and protrudes forwards from the mounting section (41) under the resilient section (46), defines an interval between the extension section (45) and the resilient section (46) and has an inside surface and teeth (451). The inside surface faces the resilient section (46). The teeth (451) are formed on the inside surface and biting the inner surface of the corresponding hook hole (118).
With further reference to
The front cover (51) covers the top surface (123), sides (125) and bottom surface of the tongue (12) and has a top plate (511), two opposite side plates (512), a bottom plate (513), two longitudinal slots (515), a connecting plate (514) and a plurality of first engaging members (516). The top plate has a rear end. The bottom plate (513) has a rear end. The longitudinal slots (515) are defined through the top plate (511) and are mounted respectively around the hooking members (47) of the positioning hooks (40) so that the hooking members (47) extend respectively out of the longitudinal slots (515). The connecting plate (514) is formed on and protrudes backwards from the rear end of the bottom plate (513) and is mounted securely in the recess (116) in the bottom (114) of the base (11) so that the connecting plate (514) partially covers the bottom (114) of the base (11). The recess (116) makes the connecting plate (514) flush with the bottom of the base (10). The first engaging members (516) are defined on the connecting plate (516) and may be protruding tabs formed on and protruding from the connecting plate (516) by a stamping process.
The rear cover (52) is formed and protrudes from the rear end of the top plate (511) of the front cover (51), covers the top (113), sides (115) and bottom (114) of the base (11) and has an upper plate (521), two opposite side plates (522), a lower plate (523), a plurality of second engaging members (526), a plurality of fastening holes (527), a plurality of locking tabs (524) and a hooking opening (525). The side plates (522) of the rear cover (52) are formed on and protrude perpendicularly and respectively from the upper plate (521). The lower plate (523) covers the connecting plate (514) of the front cover (51) and may be defined by two extension plates formed perpendicularly on and protruding inwards from the side plates (522). The second engaging members (526) are defined on the lower plate (523), are engaged respectively with the first engaging members (516) of the front cover (51) and may be openings defined through the lower plate (523) and mounted respectively around the protruding tabs of the front cover (51). The fastening holes (527) are defined through the lower plate (523) and are mounted respectively around the fastening protrusions (117) of the base (11). The locking tabs (524) are formed on and protrude downwards from the upper plate (52), are mounted respectively in the locking slots (231) and abut respectively against the closed front ends of the locking slots (231) to prevent the connection bracket (20) from being disconnected from the insulative housing (10). The hooking opening (525) is defined through the upper plate (521) and is hooked by the hooking element (117a) on the base (10).
When the metal shell (50) is assembled to the insulative housing (20), the front cover (1) is mounted around the tongue (12) with the connecting plate (514) mounted in the recess (116) of the base (11). The side plates (52) and extension plates forming the lower plate (523) are not bent to desired positions yet, as shown in
The front cover (51) of the metal shell (50) covers the tongue (12) of the insulative housing (10) with the connecting plate (514) partially covering the base (11). The rear cover (52) further covers and combines the base (12) and connecting plate (514). Therefore, the front and rear covers (51, 52) double cover the insulative housing (10) to strengthen the structures of the micro plug connector. The lap and combination of the front and rear plates (51, 52) also prevents the front and rear plates (51, 52) from inadvertently bending and relative to each other and separating out from the insulative housing (10). Therefore, the micro plug connector mounted on a cable may easily pass through a rotary test without inadvertently failing or separating from the cable.
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Date | Country | Kind |
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097216233 | Sep 2008 | TW | national |