CN104836051A - Socket connector - Google Patents

Abstract

A socket connector comprises an insulating body, a terminal, a shield plate and a metal casing with docking chamber formed by surrounding the insulating body. The insulating body comprises an integrated base part and a butt tongue; the shield plate is buried in the butt tongue; the insulating body has a terminal groove that penetrates from the butt tongue to the base part; the terminal comprises a main part, contact parts set on the two ends of the main part, and a pin; the main part has interference barbs; the terminal is inserted into the terminal groove and the interference barbs are fixed in the terminal groove; the contact parts are arranged on the butt tongue; and the pin extends out of the base part. The socket connector can improve assemble process effectively by injecting the shield plate first and assembling the terminal the next.

Description

Socket connector

[technical field]

The present invention relates to a kind of socket connector.

[background technology]

No. 20130095702A1st, U.S. Patent Application Publication discloses a kind of pin connector of two-way grafting, and this pin connector has connection-peg, and this connection-peg has relative upper and lower surface, and some conducting terminals are arranged on upper and lower surface.The conducting terminal being exposed to upper and lower surface is mutually symmetrical spaced apart, and the shape of connector is roughly symmetrical in 180 degree, makes it can insert corresponding socket connector by both forward and reverse directions.

But need to arrange commutation circuit inside socket connector or electronic equipment, be that forward inserts to detect pin connector, or oppositely insert, thus start corresponding down-stream.When the terminal of connector is more, commutation circuit is more complicated, so, does not meet trend.Meanwhile, pin connector is exposed conveying appliance plug, still can there is the possibility that grafting destroys in actual use.

I takes charge of the novel pin connector of active development positive and negative both direction can insert socket connector, and these two connectors can transmitting high-frequency signal simultaneously.In the development process continued, because this connector combination has comparatively multi-terminal, ground strip and shield, parts are more, and size is less simultaneously, and assembling is difficulty very.

[summary of the invention]

Technical problem to be solved by this invention is to provide a kind of socket connector, and it has good assembling mode.

For solving the problems of the technologies described above, the present invention can adopt following technical scheme: a kind of socket connector, and it comprises insulating body, terminal, shield and surrounds insulating body and form the metal shell docking chamber; Described insulating body comprises integrated base portion and docking hyoplastron, and above-mentioned shield is embedded in docking hyoplastron; Described insulating body is provided with the terminal groove running through base portion from docking hyoplastron, and described terminal comprises main part, is positioned at contact site and the pin at main part two ends, and main part is provided with interference hangnail; Described terminal insertion terminal groove and its interfere hangnail be fixed in terminal groove, contact site is arranged in docking hyoplastron, and pin extends base portion.

Compared with prior art, electric connector of the present invention assembles terminal again by first injection moulding shield, effectively can improve assembling flow path.

[accompanying drawing explanation]

Fig. 1 is the stereogram that the socket connector of first embodiment of the invention is arranged on circuit board.

Fig. 2 is the stereogram that Fig. 1 socket connector is separated with circuit board.

Fig. 3 is the three-dimensional exploded view of socket connector in Fig. 1.

Fig. 4 is the three-dimensional exploded view of another angle of Fig. 3.

Fig. 5 is the stereogram that Fig. 4 decomposes further.

Fig. 6 is the stereogram that Fig. 5 terminal module decomposes further.

Fig. 7 is the location diagram of terminal, shield.

Fig. 8 is the profile of Fig. 1 along dotted line A-A.

Fig. 9 is the profile of Fig. 1 along dotted line B-B.

Figure 10 is the profile of Fig. 1 along dotted line C-C.

Figure 11 is the distressed structure of the first embodiment.

Figure 12 is the another kind of distressed structure of the first embodiment.

Figure 13 is a kind of distressed structure of shield.

Figure 14 is the stereogram that Figure 13 shield holding part does not bend.

Figure 15 is the stereogram that the socket connector of second embodiment of the invention is arranged on circuit board.

Figure 16 is Figure 15 socket connector and circuit board stereogram separated from one another.

Figure 17 is the stereogram that Figure 16 decomposes further.

Figure 18 is the stereogram that the socket connector of third embodiment of the invention is arranged on circuit board.

Figure 19 is Figure 18 socket connector and circuit board stereogram separated from one another.

Figure 20 is the three-dimensional exploded view of socket connector in Figure 19.

Figure 21 is the three-dimensional exploded view of Terminals Die group in Figure 20.

Figure 22 is the profile of Figure 18 along broken lines D-D.

Figure 23 is the system schematic that fourth embodiment of the invention has socket connector.

Figure 24 is the stereogram that in Figure 23, socket connector is arranged on circuit board.

Figure 25 is the three-dimensional exploded view of socket connector in Figure 24.

Figure 26 is the three-dimensional exploded view that Figure 25 decomposes further.

Figure 27 is a kind of structure-improved of metal shell.

Figure 28 is a kind of structure-improved of terminal in socket connector.

Figure 29 is a kind of stereogram of vertical-type socket connector.

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

[embodiment]

Fig. 1-10 shows the first embodiment of the present invention, the present embodiment is a kind of socket connector 200 be arranged on circuit board 150, it comprises insulating body 220, terminal 240, the metal shell 210 surrounding insulating body and metal cap 212, and metal cap 212 is welded on circuit board 150 by surface soldered technology.Insulating body 220 comprises base portion 222 and docking hyoplastron 224, and docking hyoplastron extends forward (namely extending along abutting direction) from base portion, and the definition of docking hyoplastron has two relative surfaces.Insulating body 220 is provided with the terminal groove 226 that two rows extend along the longitudinal direction; terminal groove runs through base portion from docking hyoplastron; each terminal groove 226 close on docking hyoplastron front end face place be formed with the depressed part 228 caved inward; protection flange 270 is left in the front end of depressed part 228 above depressed part, and terminal groove is provided with the platform 230 of protrusion at the rear of depressed part.A pair relative conduit 232 is arranged on the both lateral sides (ginseng Fig. 6) of each terminal groove 226.Plural terminals 240 inserts corresponding terminal groove 226 from back to front, each terminal 240 comprise level main part 242, be positioned at the surface soldered type pin 246 at main part rear and be positioned at the contact site 248 in main part front, the both lateral sides of main part has two pairs of hangnails 244, terminal groove 226 interference engagement of hangnail and insulating body and be fixed in terminal groove 226 by terminal 240, the front end 2481 of contact site 248 slopes inwardly and is arranged in depressed part 228.Terminal 240 is that two rows are arranged, and the pin 246 opposing body portion of upper row's terminal respectively to both sides lateral shift, thus forms two groups, and the pin 246 of lower row's terminal then remains unchanged relative to its main part and offsets.On the other hand, pin 246 direction towards the opposite of two row's terminals extends.It should be noted that, ginseng Fig. 9, the first half of contact site is supported by platform 230, and the remainder of contact site 248 and main part 242 keep at a certain distance away with insulating body in the vertical direction, and are housed in conduit 232 fixing to do support by a pair hangnail 244.

Described metal shield 250 was molded in insulating body 220 by injection molding technology before terminal 240 inserts insulating body, and namely described insulating body 220 comprises integrated above-mentioned base portion and above-mentioned docking hyoplastron, and shield 250 is embedded in docking hyoplastron.After terminal 240 inserts, shield is between two row's terminals 240.Shield 250 comprises the first shielding portion 251 between the contact site 248 of two row's terminals, the second shielding portion 253 between the pin 246 of two row's terminals, first shielding portion extends to base portion from docking hyoplastron, and the main part 242 of two row's terminals also lays respectively at the both sides of the first shielding portion.Shield 250 is provided with for the pair of catches lateral margin 252 of the internal lock fastener phase clasp with banjo connector, a pair overlap joint arm 254 being positioned at shield both lateral sides and the ground strip 256 bending respectively from shield both lateral sides limit for a pair and formed.Described overlap joint arm 254 laterally extends the side 223 of the base portion of insulating body from the first shielding portion and contacting metal housing 210(joins Fig. 8).Described two ground strips 256 are parallel to each other and lay respectively at the both sides of two apparent surfaces of shield with shield, the docking hyoplastron 224 of insulating body has root 225 at its adjacent base 222 place, above-mentioned ground strip is attached on root respectively, be used for contacting with the elastic plate of the pin connector of docking and forming grounding path, this ground strip has screening effect.What please note is, shield 250 is also provided with plurality of through holes 258, and after the above-mentioned insulating body 220 of injection mo(u)lding, the portion of material of insulating body can fill up these through holes, so can be embedded in insulating body by shield 250 better, namely whole terminal base has good intensity.

Described metal shell 210 forms a docking chamber 211, and docking hyoplastron 224 extends forwardly to docking chamber, and metal shell is also provided with the complex elastic sheet 213 that inwardly extends back and to projecting inward plural salient point 215, is used for fixing the pin connector of insertion.Metal shell 210 integrally extends rear wall 217, rear wall covers the rear end face of insulating body, rear wall is bent with Liang Ge ear 219 and surface soldered type pin 218, ear is fixed on the trailing edge of metal shell 210, not only can form a more stable metal shell construction, but also socket connector can be covered all sidedly.Metal shell 210 is roughly cystic structures, have two relative sidewalls and two arc end walls, 260, four walls are connected with each other, above-mentioned ear 219 clasp is in the rear end of arc end wall 260, end wall is also bent with the sheet installation foot 262 of level, is used for being surface mounted in circuit board 150.Metal shell 210 comprises the trailing edge 268 of a bending, and trailing edge is pressed on the base portion 222 of insulating body backward.Metal cap 212 is fixed on metal shell 210(by lug 264 and joins Figure 10), by installation foot 266 surface soldered at circuit board 150.

The socket connector 200 of the present embodiment is arranged on above circuit board 150 completely, and terminal 240 is the terminal grooves 226 being assembled into insulating body.On the other hand, rear wall 217 can prevent the electromagnetic interference of fore-and-aft direction effectively.The front end 2481 of terminal contact portion 248 slopes inwardly and is contained in depressed part 228, and part cover by the protection flange 270 above depressed part, the risk that end ejects before terminal contact portion can be prevented further.Be understandable that, insulating body 220 by the rear wall 217 of metal shell be blocked in thereafter end face and play prevent insulating body after move, vertical plane before being resisted against insulating body base portion 222 by trailing edge 268 and play the reach preventing insulating body.

Figure 11 is a kind of deformed socket connector 200a of the first embodiment, the structure of this socket connector 200a is identical in essence with the socket connector 200 of the first embodiment, the main distinction is, the metal shell 210 of the socket connector 200a of the present embodiment and metal cap 210 have through hole type installation foot 262a, 218a, 266a, namely installation foot extends straight down, insert the through hole of circuit board correspondence setting and form electric connection, i.e. industry so-called through hole type circuit board installation foot.The pin of upper and lower row's terminal is still surface soldered type pin, and pin direction towards the opposite extends.Shield is provided with two the through hole type pins 255 extended from the bending of its second shielding portion 253.

Figure 12 is the another kind of deformed socket connector 200b of the first embodiment, and it is identical in essence with socket connector 200a shown in Figure 11, and difference is, the leading edge 2121 of metal shell 210 is formed by the horn-like flange of plural number, and convenient corresponding pin connector inserts.

Figure 13-14 shows a kind of structure improved shield 250 ', the end of the clinch 256 ' of shield is formed with holding part 259 ', be fixed on the main part (i.e. the first shielding portion) of shield after the bending of this holding part, relative shield makes inclination movement to prevent grounding parts 256 ' in injection moulding process because of high pressure.Holding part 259 ' is a pair elastic hook, and shield is provided with clasp hole 260 ', and elastic hook inserts clasp hole and clasp in clasp hole.Shield 250 ' has two pins 255 ' continuing to extend from the second shielding portion 253 '.

Figure 15-17 shows the socket connector 600 of the second embodiment, and described socket connector is arranged in the breach 652 of circuit board 650.Socket connector 600 comprises terminal module (or be called insulating body, not shown, structure is identical with the 3rd embodiment), surrounds metal shell 602 and the metal cap 610 of insulating body.Metal shell 602 forms cryptomere docking chamber 604 or is called docking port, and metal shell is provided with the complex elastic sheet 606 extending into docking chamber, is used for fixing with the pin connector of docking.The metal shell 602 of the present embodiment only comprises cryptomere docking section, and cap without issue, so, metal shell 602 opposed configuration is simple, convenient manufacture.Above-mentioned metal cap 610 comprises the front cap 612 be coated on above metal shell 602 and the rear cap 614 being coated on insulating body base portion, roof 616 and the sidewall 618 of the front cap 612 of metal cap are welded on metal shell 602, and rear cap 614 is formed with the lug 620 be fixed in insulating body end face conduit.From the side, the connecting portion 622 that metal cap 610 connects forward and backward cap is S-type, and when metal shell 602 is arranged on circuit board 650, in the vertical direction has slight adjustment sometimes, and this connecting portion 622 can the dislocation that causes because of above-mentioned slight adjustment of correction.After socket connector 600 is arranged on electronic equipment, because docking chamber 604 needs align with the port of electronic equipment casing, slight adjustment can be done to adapt to the shell port of electronic equipment because of the existence of connecting portion 622 in like this position of docking chamber 604 opposing circuit board.In order to effectively socket connector 600 is arranged on breach 652 and the top of circuit board, the front cap 612 of metal cap 610 comprises the installation foot 624 vertically bent for a pair, and rear cap 614 comprises a pair installation foot 626 vertically bent.Rear cap 614 is included in contiguous connecting portion 622 place further and is provided with a pair fixed part 628, be provided with a pair installation foot 630 closing on rear wall 636 place, fixed part 628 is welded on the trailing edge of metal shell 602, so can strengthen the overall construction intensity of socket connector, the intensity at especially contiguous connecting portion 622 place.The position of the contiguous lug 620 of installation foot 630.A pair elevated portion 632 is formed in the both sides of connecting portion 622, is used for covering the electromagnetic interference of fore-and-aft direction.It should be noted that, metal shell 602 is integrally extended with inferoposterior wall 634, metal cap is extended with rear wall 636, they are attached to the rear end face of insulating body, the rear end face mainly insulating body being positioned at circuit board and the rear end face being positioned at circuit board and below all cover, and can prevent electromagnetic interference in the longitudinal direction.Certainly, metal-back 602 and metal cap 610, by outside the method that is welded and fixed, can also adopt other mode to be fixed together, such as snap close.

Figure 18-22 shows the socket connector 300 of third embodiment of the invention, and it is arranged in the breach of circuit board 390.Described socket connector 300 comprises terminal module 310, metal shell 334 and upper and lower metal cap 340,342.Described terminal module by upper module 312, lower module 314 after clamping a shield 316 again injection mo(u)lding have middle insulator 318 and formed.Upper module comprises row's terminal 320 and the insulator 322 of injection mo(u)lding on upper row's terminal, lower module comprises lower row's terminal 324 and the insulator 326 of injection mo(u)lding on lower row's terminal, after upper and lower module clamping shield 316 again the injection mo(u)lding of one have in insulator 318.Please note, the upper ground strip 328 of anti-electromagnetic interference and lower ground strip 330 are embedded in upper and lower module after being molded over second time injection mo(u)lding integratedly.Wherein, the corresponding ground strip place of shield inside contracts (being called interior cissing 3161) slightly, can be used for ground strip to place.As mentioned above, terminal module 310 is completed by two stage injection molding forming technique, particular content can join our company in the application number that on April 7th, 2015 applies for be the socket connector of 201510159370.4.Described terminal module 310 comprises the docking hyoplastron 332 being positioned at front and being used for docking with the pin connector of docking.

Described metal shell 334 is only docking section, and it is fixed on the front portion of terminal module 310 and surrounds docking hyoplastron 332, thus forms docking chamber 333; Metal shell has the front flange 336 and through hole 338 that extend continuously, and leading edge not only can the leading edge of coated upper and lower metal cap, and can provide more complete screening effect (relatively having the front flange of disconnection).Upper metal cap 340 is fixed on the roof of metal shell, and lower metal cap 342 is fixed on the diapire of metal shell.Upper metal cap 340 comprises the upper rear wall 341 covering rear portion on terminal module, and lower metal cap 342 comprises the inferoposterior wall 343 covering rear portion under terminal module.Upper metal cap 340 is provided with a pair elastic arm 345, this is out formed from metal shell punching press elastic arm, it inwardly extends mutually afterwards from the adjacent side place of metal shell respectively again, its free terminal has the contact end 346(entering docking chamber through the through hole 338 of metal shell and joins Figure 22), contact end 346 has the circular protrusions protruded to docking chamber, the stamped groove 3461 forming above-mentioned elastic arm is large compared with the size of elastic arm, allow elastic arm to do certain skew within it, facilitate contact end to enter through hole 338 like this.Lower metal cap 342 is also provided with complex elastic arm 347, and elastic arm has the contact end 348 entering docking chamber through through hole, and the elastic arm that concrete structure catches up with metal cap is identical.These contact jaws are used for coordinating with corresponding pin connector clasp.

It should be noted that the terminal of socket connector has less spacing, but the circuit on traditional circuit-board or mainboard may not meet such demand, so occur that so-called pinhole type circuit board is to for this closely spaced socket connector.But under same size, the price of pinhole type circuit board is but the twice of ordinary circuit board.Figure 23 provides one and meets above-mentioned applicable closely spaced socket connector, the solution that price is moderate again, in Figure 23, a system comprises module 400, bayonet connector 470 and traditional circuit-board 480, module 400 comprises socket connector 410, little wiring board 460 and chipset 440, little wiring board is pinhole type circuit board and cost is lower, and chipset 440 and socket connector 410 are installed on little wiring board.Chipset 440 can cover shell 442 by metal and cover.Bayonet connector 470 is arranged on circuit board 480, is used for accommodating one end of little wiring board 460, thus is formed and be electrically connected.Be understandable that, bayonet connector 470 can be replaced by the connector of other type, such as cable connector combination connects little wiring board 460 and circuit board 480; Also can be that two socket connectors and a chipset are arranged on little wiring board, or the combination of other quantity.Figure 24-26 shows the concrete structure of above-mentioned socket connector 410, above-mentioned socket connector 410 comprises terminal module, the metal shell 418 surrounding terminal module and upper and lower metal cap 412,414, metal shell and upper and lower metal cap can be common whole socket connector is all played screening effect in three directions, metal shell and lower metal cap are provided with inferoposterior wall 415,434, certainly, upper metal cap is provided with rear wall.Equally, bayonet connector can be arranged in the breach of circuit board 480, to reduce whole connector combination or system height on circuit boards.

Figure 27 shows a kind of metal shell construction of improvement, metal shell 56 ' has arc abutting edge 561 ', and from the side, abutting edge 561 ' is the arcuate structure protruded forward, this arcuate structure is arranged on the end wall of metal shell, and arcuate structure is comparatively gone up lower wall and protruded out forward.Figure 28 shows a kind of structure-improved of socket connector terminal, and socket connector has fixed terminal 581 and flexible terminal 582, and fixed terminal 581 is positioned at the front of flexible terminal 582.

Figure 29 show a kind of vertical-type socket connector 500(wherein insulating body do not draw entirely), on circuit boards, namely abutting direction is perpendicular to circuit board for the directly vertical installation of socket connector 500.Socket connector comprises the metal shell 552 surrounding insulating body, the installation portion departed from laterally is torn in the bottom of metal shell, gap 562 is formed between installation portion and insulating body, installation portion transverse horizontal extends extension 564, be used for covering this gap 562, extension is also conducive to socket connector to be installed on circuit boards.On the other hand, two end walls of metal shell are provided with grounding leg (not shown), can effectively improve the effect preventing electromagnetic interference

Above-described embodiment is better embodiment of the present invention, and the execution mode of not all, the change of those of ordinary skill in the art by reading specification of the present invention to any equivalence that technical solution of the present invention is taked, be claim of the present invention contained, such as, forward direction as referred to herein is abutting direction, and comparatively speaking, these situations are also applicable to the electric connector being vertically arranged on circuit board in above-below direction system.

Claims (10)

1. a socket connector, it comprises insulating body, terminal, shield and surrounds insulating body and form the metal shell docking chamber; It is characterized in that: described insulating body comprises integrated base portion and docking hyoplastron, above-mentioned shield is embedded in docking hyoplastron; Described insulating body is provided with the terminal groove running through base portion from docking hyoplastron, and described terminal comprises main part, is positioned at contact site and the pin at main part two ends, and main part is provided with interference hangnail; Described terminal insertion terminal groove and its interfere hangnail be fixed in terminal groove, contact site is arranged in docking hyoplastron, and pin extends base portion.

2. socket connector as claimed in claim 1; it is characterized in that: described terminal groove forms depressed part closing on docking hyoplastron front end face place to cave inward; protection flange is left in the top of depressed part; terminal groove is provided with platform at depressed part rear; the free terminal of contact site to be arranged in depressed part and to be positioned at below protection flange; the previous section of contact site by the other parts of platform contact site and main part then unsettled in terminal groove, hangnail is interfered and is fixed in terminal groove.

3. socket connector as claimed in claim 1 or 2, it is characterized in that: the both lateral sides of described terminal groove is provided with conduit, above-mentioned interference portion is fixed in conduit.

4. socket connector as claimed in claim 1, is characterized in that: the both sides of described metal shell are provided with the installation foot of horizontal buckling, and rear wall is provided with the installation foot to docking cavity direction horizontal buckling.

5. socket connector as claimed in claim 1, is characterized in that: the both sides of described metal shell are bent with the installation foot vertically extended, and rear wall is provided with the installation foot vertically extended.

6. socket connector as claimed in claim 1, is characterized in that: two relative walls of described metal shell are provided with the salient point protruded to docking chamber.

7. socket connector as claimed in claim 1, it is characterized in that: described socket connector comprises metal cap, upper metal cap comprises the front cap covering metal shell and the rear cap covering base portion; Described rear cap extends the fixed part being separately fixed at metal shell trailing edge for a pair.

8. socket connector as claimed in claim 1, it is characterized in that: described socket connector comprises metal cap, upper metal cap comprises the front cap covering metal shell and the rear cap covering base portion; Be connected with connecting portion between described front cap and rear cap, see from side, shown connector is S font.

9. socket connector as claimed in claim 1, is characterized in that: described socket connector comprises metal cap, and upper metal cap surrounds and covers the front cap of metal shell and cover the rear cap of base portion; Described rear cap extends upper rear wall, and described metal shell extends inferoposterior wall, and the rear end face of insulating body base portion covers by described upper rear wall and inferoposterior wall jointly.

10. socket connector as claimed in claim 1, it is characterized in that: described socket connector comprises metal cap, upper metal cap comprises the front cap covering metal shell and the rear cap covering base portion; The front cap of described metal cap is provided with elastic arm, and elastic arm extends back from two sides first relative extension of front cap again, and the free terminal of elastic arm is provided with contact end; Metal shell is provided with through hole, and the contact end of described elastic arm enters docking chamber through through hole.