CN203339334U - Socket connector and plug connector - Google Patents

Abstract

The utility model discloses a socket connector and a plug connector. The socket connector comprises a socket body, and a plurality of socket terminals which are accommodated inside the socket body. The socket body is provided with a plug hole, a first tongue plate, and a second tongue plate, wherein the first tongue plate and the second tongue plate extend forwards into the plug hole in a raised manner. Each of the socket terminals comprises a first socket terminal group and a second socket terminal group. The first socket terminal group is provided with a row of contact parts which are disposed on a side surface of the first tongue plate in a row manner, and provided with a welding part which extends out from the socket body. The second socket terminal group is provided with a row of contact parts which are disposed on a side surface of the second tongue plate in the row manner, and provided with a welding part which extends out from the socket body. The contact parts of the first socket terminal group and the contact parts of the second socket terminal group are respectively exposed in the plug hole. The first tongue plate and the second tongue plate are separated, are in vertical arrangement, and are parallel to each other. The first socket terminal group is in accord with the USB2.0 standard transmission protocol. The combination of the first and second socket terminal groups is in accord with the USB3.0 standard transmission protocol. The above design helps reduce the width of the socket connector.

Description

Socket connector and pin connector

Technical field

The utility model relates to a kind of socket connector and pin connector, relates in particular to a kind of socket connector and pin connector with ultra high speed signal transmission.

Background technology

PC realizes the input and output of data all the time in various manners, and USB (USB) is a kind of PC framework of serial bus standard, is mainly used in computer interface.Nowadays the design of USB interface is by USB association (USB-IF) standardization.USB interface can connect external equipment, as mouse, keyboard, palmtop PC, game machine, mobile phone, printer, portable hard drive, networking component etc.In much equipment, for example, in mobile phone and portable hard drive, USB interface has become the connected mode of its standard.

Up to the present, USB association has issued 1.0,1.1,2.0, has reached 3.0 standards, above-mentioned USB 1.0,1.1,2.0 standards are supported respectively following three kinds of signal transmission rates: (1). the low-speed mode transmission rate is 1.5 MBPSs, multiplex in mouse and keyboard; (2). the magic transmission rate is 12 MBPSs at full speed; (3). the fast mode transmission rate is 480 MBPSs.And 3.0 standards are 640 MBPSs for hypervelocity mode transfer speed, so following electronic product will be transitioned into the epoch of USB 3.0 interfaces gradually.

Chinese patent is announced the socket connector that discloses a kind of Micro-USB 3.0 standards for No. CN201397969Y, it comprises insulating body, be contained in the interior some conducting terminals of insulating body and the metal shell of coated insulation body, insulating body be provided with protrude out forward along level, arrange first, the second hyoplastron, first, the second hyoplastron separates between left and right, conducting terminal comprises the first end subgroup that is arranged on the first hyoplastron and the second terminal group on the second hyoplastron, insulating body is provided with left and right isolated first, the second interface, the first hyoplastron is positioned at the first interface, the second hyoplastron is positioned at the second interface, the first end subgroup meets Micro-USB 2.0 standards, the first interface meets the pin connector of Micro-USB 2.0 standards in order to grafting, first, the combination of the second terminal group meets the Micro-USB3.0 standard, first, the second interface meets the pin connector of Micro-USB 3.0 standards jointly in order to grafting, yet, the width of this socket connector is larger, and the reserved installing space of the electronic equipment that this socket connector need to be installed is limited, causing installing difficulty even can't install.Micro-USB 3.0 pin connectors corresponding with this socket connector also can meet with above-mentioned technical problem.

So, be necessary to design a kind of new socket connector and pin connector to solve the problems of the technologies described above.

The utility model content

The purpose of this utility model has been to provide a kind of socket connector and pin connector that reduces width that have.

For realizing aforementioned purpose, the utility model adopts following technical scheme: a kind of socket connector, it comprises jack body and is contained in the some female terminals in jack body, described jack body is provided with a spliced eye and protrudes into forward first in spliced eye, the second hyoplastron, described female terminal comprises first, the second socket end subgroup, described the first socket end subgroup has the weld part that row is located at row's contact site of the first hyoplastron one side surface and extends jack body, described the second socket end subgroup has the weld part that row is located at row's contact site of the second hyoplastron one side surface and extends jack body, described first, the contact site of the second socket end subgroup is exposed to respectively spliced eye, described first, the second hyoplastron separates between the upper and lower and is parallel to each other, described the first socket end subgroup meets USB 2.0 standard transmission protocol, described first, the combination of the second female terminal meets USB 3.0 standard transmission protocol.

As further improvement of the utility model, described first, second female terminal group is set to respectively five, described the first socket end subgroup meets Micro-USB 2.0 standard transmission protocol, and the combination of first, second socket end subgroup meets Micro-USB 3.0 standard transmission protocol.

As further improvement of the utility model, the contact site of described the first female terminal row is located at the lower surface of the first hyoplastron, and the contact site row of described the second socket end subgroup is located at the lower surface of the second hyoplastron.

As further improvement of the utility model, described socket end subgroup also comprises and is contained in the inspection terminal inserted with the detecting pin connector in jack body, and inspection terminal is provided with the contact site that row is located at the second hyoplastron and is positioned at the second socket end subgroup outside.

As further improvement of the utility model, described jack body comprises base portion, isolated a pair of the first sidepiece of described first, second hyoplastron protruded out forward from base portion and left and right, and described spliced eye is between this is to the first sidepiece.

As further improvement of the utility model, described the first sidepiece comprise the first vertical plane, from the first vertical plane downwards and the horizontal plane that extends to the inside of the ,Zi inclined plane, inclined plane of extending to the inside and from horizontal plane the second vertical plane to downward-extension, the first hyoplastron with aliging about the first vertical plane higher than inclined plane, horizontal plane and the second vertical plane.

As further improvement of the utility model, described socket connector also comprises the metal shielding casing that coats jack body, described shielding casing comprises roof, the two side of the diapire relative with roof and connection roof and diapire, described roof hides the top of spliced eye, diapire hides the bottom of spliced eye, roof and the first hyoplastron separate between the upper and lower, diapire and the second hyoplastron separate between the upper and lower, spacing between roof and the first hyoplastron be less than first, spacing between spacing between the second hyoplastron and diapire and the second hyoplastron, described sidewall is coated on the first sidepiece, on above-below direction, described the first sidepiece is clamped by roof and diapire.

As further improvement of the utility model, described socket connector also comprises covering at the second hyoplastron top and the metallic plate between first, second socket end subgroup.

The utility model also can adopt following technical scheme: a kind of pin connector, it comprises header body and is contained in the some plug terminals in header body, described header body comprise that main part and autonomous body protrude out forward first, second substrate, described plug terminal comprises first, the second plug end subgroup, described first, second substrate separates between the upper and lower and is parallel to each other, first substrate is provided with and runs through forward first substrate in order to accommodate the U-shaped recess of socket connector, described first, between second substrate, form in order to accommodate the interface of socket connector, described the first plug end subgroup meets USB 2.0 standard transmission protocol, first, the combination of the second plug end subgroup meets USB 3.0 standard transmission protocol, described the first plug end subgroup has row and is located on first substrate and is exposed to the row's contact site in recess, described the second plug end subgroup has row and is located on second substrate and is exposed to the row's contact site in interface.

As further improvement of the utility model, described first, second plug terminal group is set to respectively five, described the first plug end subgroup meets Micro-USB 2.0 standard transmission protocol, the combination of first, second plug end subgroup meets Micro-USB 3.0 standard transmission protocol, and described first substrate is positioned at the top of second substrate and the width on left and right directions is greater than second substrate.

As further improvement of the utility model, described pin connector comprises coating first, the metal shell of second substrate, described metal shell comprises roof, the two lateral walls of diapire 612 and connection roof and diapire, roof and diapire are that level is tabular, roof is downwards by being attached on first substrate and hiding recessed top, diapire is upwards by being attached on second substrate, each sidewall comprises the first vertical wall be connected with roof, reach from the first vertical wall the inclined wall extended to the inside downwards, the second vertical wall of the horizontal wall of extending to the inside from inclined wall and connection horizontal wall and diapire, the first vertical wall, inclined wall and horizontal wall are respectively by being attached on first substrate, described interface is formed on first substrate, between second substrate and the second vertical wall.

As further improvement of the utility model, described plug end subgroup also comprises and being contained in header body with an inspection terminal of detecting socket connector, and inspection terminal is provided with the contact site that row is located at second substrate and is positioned at the second plug end subgroup outside.

As further improvement of the utility model, described header body comprises an insulator, and is assembled in forward respectively first, second collets on insulator, described first, second substrate is to be located on insulator, described the first plug end subgroup is embedded on the first collets, described the second plug end subgroup is embedded on the second collets, and the contact site of first, second plug end subgroup protrudes out forward first, second collets.

As further improvement of the utility model, described pin connector also comprises cable, described first, second plug end subgroup also comprises and is exposed to the connecting portion that first, second collets rear end upper surface and cable weld together, and the connecting portion of the connecting portion of the first plug end subgroup and the second plug end subgroup is reaching on fore-and-aft direction and mutually staggering and arrange up and down.

As further improvement of the utility model, described insulator two sides also are concaved with pre-and post perforative slit and are positioned at the confinement block of slit, the second collets are provided with a pair of fixed arm protruded out forward and the clasp piece that is convexly set in the fixed arm end, fixed arm inserts forward in slit, and the clasp piece is snapped on confinement block backward.

The utility model socket connector described first, the second hyoplastron separates between the upper and lower and is parallel to each other, described the first socket end subgroup meets USB 2.0 standard transmission protocol, described first, the combination of the second female terminal meets USB 3.0 standard transmission protocol, the utility model pin connector described first, second substrate separates between the upper and lower and is parallel to each other, first substrate is provided with and runs through forward first substrate in order to accommodate the U-shaped recess of socket connector, described first, between second substrate, form in order to accommodate the interface of socket connector, described the first plug end subgroup meets USB 2.0 standard transmission protocol, first, the combination of the second plug end subgroup meets USB 3.0 standard transmission protocol, described the first plug end subgroup has row and is located on first substrate and is exposed to the row's contact site in recess, described the second plug end subgroup has row and is located on second substrate and is exposed to the row's contact site in interface, so design, when the utility model socket connector and pin connector can meet the requirement of ultra high speed signal transmission, reduced the width of socket connector and pin connector, thereby make socket connector install in limited installing space easily in electronic equipment, convenient, pin connector is easy to carry.

The accompanying drawing explanation

The three-dimensional combination figure that Fig. 1 is the utility model socket connector and pin connector.

The three-dimensional combination figure that Fig. 2 is the utility model socket connector.

The three-dimensional combination figure that Fig. 3 is another angle of the utility model socket connector.

The three-dimensional exploded view that Fig. 4 is the utility model socket connector.

The three-dimensional exploded view that Fig. 5 is another angle of the utility model socket connector.

The schematic perspective view of the insulator that Fig. 6 is the utility model pin connector.

Fig. 7 is the schematic perspective view that the utility model pin connector header body and plug terminal combine.

The three-dimensional exploded view that Fig. 8 is the utility model pin connector.

The three-dimensional exploded view that Fig. 9 is another angle of the utility model pin connector.

Embodiment

Refer to shown in Fig. 1 to Fig. 5, the pin connector 200 that the utility model provides a kind of socket connector 100 and docks with this socket connector 100, socket connector 100 is upper in order to be installed to circuit board (not shown), and socket connector 100 comprises jack body 10, is contained in the some female terminals 20 in jack body 10 and is coated on jack body 10 outsides in order to prevent the metal shielding casing 30 of electromagnetic interference.

Jack body 10 comprises the first noumenon 11 and upwards is assembled in the second body 12 on the first noumenon 11, and the first noumenon 11 comprises the first base portion 111 and isolated a pair of the first sidepiece 113 in the first hyoplastron 112, left and right protruded out forward from the first base portion 111.Should be to forming the spliced eye 114 in order to patchplug connector 200 between the first sidepiece 113, spliced eye 114 comprises spliced eye 1141 and the lower spliced eye 1142 connected with upper spliced eye 114, the width of upper spliced eye 1141 on left and right directions is greater than lower spliced eye 1142, the first hyoplastron 112 is positioned at spliced eye 1141, and separates between left and right with each first sidepiece 113.The first base portion 111 bottoms are concaved with the perforate 116 that upwards runs through the first base portion 111 with fixed space 115 and the self-retaining space 115 of spliced eye 114 front and back perforations, and the inner roof wall of fixed space 115 also is concaved with a pair of fixing hole 117.Each first sidepiece 113 comprises the first vertical plane 1131, from the first vertical plane 1131 and the inclined plane 1132 of extending to the inside, 1132 horizontal planes that extend to the inside 1133 and the second vertical plane 1134, the first hyoplastrons 112 to downward-extension align with the first vertical plane 1131 left and right and higher than inclined plane 1132, horizontal plane 1133 and the second vertical plane 1134 from horizontal plane 1133 from inclined plane downwards.

The second body 12 comprises the second base portion 121 and the second hyoplastron 122 in the second base portion 121 protrudes into forward 11 times spliced eyes 114 of the first noumenon upwards be assembled in the first noumenon 11 fixed spaces 115, the first, the first base portion 111,121 forms the base portion of jack body 10, the width of first, second hyoplastron 112,122 on left and right directions is roughly the same, but allows certain error.The second base portion 121 is provided with the lock catch arm 126 that upwards inserts the first noumenon 11 perforates 116 and is fixed in the cylinder 127 in the first noumenon 11 fixing holes 117, lock catch arm 126 ends convex with buckle piece 128, be provided with horizontal barrier (not shown) in perforate 116, buckle piece 128 is buckled in downwards on barrier, limits first, second body 11,12 and is separated from up and down.The second hyoplastron 122 separates between left and right and mutually aligns with the second vertical plane 1134, the second body 12 also is embedded with a metallic plate 13, this metallic plate 13 directly hides the top of the second hyoplastron 122, horizontal plane 1133 and the metallic plate 13 of the first noumenon 11 are located in the same horizontal plane, but allow certain error.

Female terminal 20 comprises that edge buries the first socket end subgroup 21 and the second interior socket end subgroup 22 of the second body 12 taken shape in the first noumenon 11, one inspection terminal 23, the first socket end subgroup 21 is set to five and meet Micro-USB 2.0 standard transportation protocols, the second socket end subgroup 22 also is set to five, be arranged in order from left to right into: a pair of ultrahigh speed receives difference signal terminal 221, one earth terminal 222 and a pair of ultrahigh speed send difference signal terminal 223, so, first, the second socket end subgroup 21, 22 combination meets Micro-USB 3.0 standard transportation protocols, so this socket connector 100 has the ability of ultra high speed signal transmission.Inspection terminal 23 is arranged in the outside (left side or right side) of the second female terminal 22, in order to detect the insertion of pin connector 200.

Each female terminal 20 comprises the tabular contact site 25 of level and extends jack body 10 to be soldered to the weld part 26 on circuit board, the contact site 25 of the first socket end subgroup 21 is arranged in the first hyoplastron 112 lower surfaces and is exposed to spliced eye 1141, weld part 26 is for extending back the horizontal structure of jack body 10, in order to be soldered to circuit board surface, the second socket end subgroup 22 is arranged in the second hyoplastron 122 lower surfaces and is exposed to lower spliced eye 1142 with the contact site 25 of inspection terminal 23, weld part 26 is for extending the vertical structure of jack body 10 downwards, in the welding hole that is soldered to circuit board.Metallic plate 13 on the second body 12, in order to cut off the signal between first, second female terminal 21,22, improves intensity and the resistance to wear of the second hyoplastron 122 simultaneously.

Shielding casing 30 comprises roof 31, the two side 33 of the diapire 32 relative with roof 31 and connection roof 31 and diapire 32, roof 31 offers the bonnet lock hole 311 be fastened togather with pin connector 200, roof 31 hides the top of spliced eye 114, diapire 32 hides the bottom of spliced eye 114, roof 31 and the first hyoplastron 112 separate between the upper and lower, diapire 32 and the second hyoplastron 122 separate between the upper and lower, spacing between roof 31 and the first hyoplastron 112 be less than first, the second hyoplastron 112, spacing between spacing between 122 and diapire 32 and the second hyoplastron 122, sidewall 33 is coated on the first sidepiece 113, sidewall 33 is consistent with the profile of the first sidepiece 113 of the first noumenon 11, on above-below direction, the first sidepiece 113 is by roof 31 and diapire 32 clampings.

First, second hyoplastron 112,122 of the utility model socket connector 100 jack bodies 10 is arranged along the vertical direction, has reduced the width of socket connector 100, thereby in can electronic equipment, in limited installing space, installs easily, convenient.

Refer to shown in Fig. 1 and Fig. 6 to Fig. 9, the utility model pin connector 200 comprises insulation shell 70 and the cable 80 of header body 40, some plug terminals 50, metal shell 60, clad metal housing 60, and cable 80 links together with plug terminal 50.

Header body 40 comprises an insulator 43, and is assembled in forward respectively first, second collets 41,42 on insulator 43, and first, second collets 41,42 protrude out insulator 43 backward.Insulator 43 comprises first, second substrate 431,432 that main part 430 and autonomous body 430 protrude out forward, first, second substrate 431,432 separates between the upper and lower and is parallel to each other, first substrate 431 is positioned at the top of second substrate 432, and width is greater than second substrate 432, first substrate 431 end faces are provided with the U-shaped recess 4311 that runs through forward first substrate 431 and are located in the flange 4312 of recess 4311 both sides, recess 4311 is in order to accommodate the first hyoplastron 112 of socket connector 100, and the interior diapire of recess 4311 is concaved with one and ranked first conduit 4313.Flange 4312 tops are provided with location notch 4314, pair of metal snap close piece 44 is contained in location notch 4314, snap close piece 44 can swing up and down in location notch 4314, snap close piece 44 front ends have convex hook part 441 of stretching out pin connector 200, when pin connector 200 docks with socket connector 100, hook part 441 is locked in socket connector 100 shielding casing 30 bonnet lock holes 311, in order to limit pin connector 200, with socket connector 100, separates.In addition, insulator 43 main part 430 two sides also are concaved with pre-and post perforative slit 4307 and are positioned at the confinement block 4308 of slit 4307, the second collets 42 are provided with a pair of fixed arm 427 protruded out forward and are convexly set in the clasp piece 428 of fixed arm 427 ends, fixed arm 427 inserts forward in slit 4307, clasp piece 428 is snapped on confinement block 4308 backward, thereby restriction main part 430 and the second collets 42 are separated.

Second substrate 432 end faces are concaved with one and ranked second conduit 4323, main part 430 rear ends are provided with the first receiving space 4301, the second receiving space 4302 and be positioned at first, the second receiving space 4301, a space bar 4303 between 4302, the first receiving space 4301 is positioned at the top of the second receiving space 4302, first, the second collets 41, 42 are assembled in forward first, the second receiving space 4301, in 4302, main part 430 also is provided with some the first grooves 4305 that some the first grooves 4304 that the first receiving space 4301 is communicated with the first conduit 4313 front and back and the second receiving space 4302 are communicated with the second conduit 4323 front and back, first, the second groove 4304, 4305 and first, the second conduit 4313, 4323 is corresponding one by one.

Plug terminal 50 comprises that edge buries the first plug end subgroup 51 and the second interior plug end subgroup 52 of the second collets 42 taken shape in the first collets 41, one inspection terminal 53, the first plug end subgroup 51 is set to five and meet Micro-USB 2.0 standard transportation protocols, the second plug end subgroup 52 also is set to five, be followed successively by from left to right: a pair of ultrahigh speed receives difference signal terminal 521, one earth terminal 522 and a pair of ultrahigh speed send difference signal terminal 523, so, first, the second plug end subgroup 51, 52 combination meets Micro-USB 3.0 standard transportation protocols, so this pin connector 200 has the ability of ultra high speed signal transmission, inspection terminal 53 is arranged in the outside (left side or right side) of the second plug terminal 52.

Each plug terminal 50 comprises and extends forward first, the second collets 41, 42 arc-shaped contact part 55 and be exposed to first, the second collets 41, the connecting portion 56 that 42 rear end upper surfaces and cable 80 weld together, the connecting portion 56 of the connecting portion 56 of the first plug end subgroup 51 and the second plug end subgroup 52 and inspection terminal 53 is reaching on fore-and-aft direction and is mutually staggering and arrange up and down, the connecting portion 53 of the first plug end subgroup 51 is arranged as a row and is positioned at a horizontal plane along left and right directions, the second plug end subgroup 52 is arranged as a ranking with the connecting portion 56 of inspection terminal 53 in another horizontal plane along left and right directions.The contact site 55 of the first plug end subgroup 51 is contained in the first conduit 4313 through after the first groove 4304 forward respectively, in order to the first socket end subgroup 21 with on socket connector 100, contact, the contact site 55 of the second plug end subgroup 51 is contained in the second conduit 4323 through after the second groove 4305 forward respectively, in order to the second socket end subgroup 22 with on socket connector 100, contacts.

Metal shell 60 comprises coating jack body 40 first, second substrate 431, 432 procapsid 61 and the back casing 62 of main part 430, procapsid 61 comprises roof 611, the two lateral walls 613 of diapire 612 and connection roof 611 and diapire 612, roof 611 is that level is tabular with diapire 612, roof 611 is downwards by being attached on first substrate 431 and the top of covering recess 4311, diapire 612 is upwards by being attached on second substrate 432, each sidewall 613 comprises the first vertical wall 6131 be connected with roof 611, reach from the first vertical wall 6131 inclined wall 6132 extended to the inside downwards, the second vertical wall 6134 of the horizontal wall 6133 of extending to the inside from inclined wall 6132 and connection horizontal wall 6133 and diapire 612, the first vertical wall 6131, inclined wall 6132 and horizontal wall 6133 are respectively by being attached on first substrate 431, one interface 615 is formed on first substrate 431, between second substrate 432 and the second vertical wall 6134, in order to accommodate the second hyoplastron 122 of socket connector 100.

Insulation shell 70 is overmolded onto back casing 62 and cable 80 outsides by external mold, and procapsid 61 protrudes out forward insulation shell 70, and cable 80 extends back insulation crust 70.

When the utility model socket connector 100 docks with pin connector 200, first of pin connector 200, second substrate 431, 432 are inserted in the spliced eye 114 of socket connector 100 jointly with procapsid 61, first substrate 431 is plugged in spliced eye 1141, the first hyoplastron 112 of socket connector 100 is positioned at first substrate 431 recesses 4311, the contact site 25 of the first socket end subgroup 21 and the contact site 55 of the first plug end subgroup 51 be Elastic Contact one by one, second substrate 432 is plugged in lower spliced eye 1142, the second hyoplastron 122 of socket connector 100 is positioned at pin connector 200 interfaces 615, the contact site 25 of the second socket end subgroup 22 and the contact site 55 of the second plug end subgroup 52 be Elastic Contact one by one, set up the ultra high speed signal transmission between socket connector 100 and pin connector 200, the contact site 25 of socket connector 100 inspection terminals 23 contacts with the contact site 25 of pin connector 200 inspection terminals 53, thereby can allow socket connector 100 detect the insertion of pin connector 200, simultaneously, the hook part 441 of pin connector 200 snap close piece 44 front ends is locked in socket connector 100 shielding casing 30 bonnet lock holes 311, restriction pin connector 200 is separated with socket connector 100, ensure the reliability of signal transmission between socket connector 100 and pin connector 200.

First, second substrate 431,432 of the utility model pin connector 200 header body 40 is arranged along the vertical direction, has reduced the width of pin connector 100, makes pin connector 100 easy to carry.

Although be the example purpose, preferred implementation of the present utility model is disclosed, but those of ordinary skill in the art will recognize, in the situation that do not break away from by the disclosed scope and spirit of the present utility model of appending claims, various improvement, increase and replacement are possible.

Claims (15)

1. a socket connector, it comprises jack body and is contained in the some female terminals in jack body, described jack body is provided with a spliced eye and protrudes into forward first in spliced eye, the second hyoplastron, described female terminal comprises first, the second socket end subgroup, described the first socket end subgroup has the weld part that row is located at row's contact site of the first hyoplastron one side surface and extends jack body, described the second socket end subgroup has the weld part that row is located at row's contact site of the second hyoplastron one side surface and extends jack body, described first, the contact site of the second socket end subgroup is exposed to respectively spliced eye, it is characterized in that: described first, the second hyoplastron separates between the upper and lower and is parallel to each other, described the first socket end subgroup meets USB 2.0 standard transmission protocol, described first, the combination of the second female terminal meets USB 3.0 standard transmission protocol.

2. socket connector according to claim 1, it is characterized in that: described first, second female terminal group is set to respectively five, described the first socket end subgroup meets Micro-USB 2.0 standard transmission protocol, and the combination of first, second socket end subgroup meets Micro-USB 3.0 standard transmission protocol.

3. socket connector according to claim 1 is characterized in that: the contact site row of described the first female terminal is located at the lower surface of the first hyoplastron, and the contact site row of described the second socket end subgroup is located at the lower surface of the second hyoplastron.

4. socket connector according to claim 1, it is characterized in that: described socket end subgroup also comprises and is contained in the inspection terminal inserted with the detecting pin connector in jack body, and inspection terminal is provided with the contact site that row is located at the second hyoplastron and is positioned at the second socket end subgroup outside.

5. socket connector according to claim 1, it is characterized in that: described jack body comprises base portion, isolated a pair of the first sidepiece of described first, second hyoplastron protruded out forward from base portion and left and right, and described spliced eye is between this is to the first sidepiece.

6. socket connector according to claim 5, it is characterized in that: described the first sidepiece comprise the first vertical plane, from the first vertical plane downwards and the horizontal plane that extends to the inside of the ,Zi inclined plane, inclined plane of extending to the inside and from horizontal plane the second vertical plane to downward-extension, the first hyoplastron with aliging about the first vertical plane higher than inclined plane, horizontal plane and the second vertical plane.

7. socket connector according to claim 5, it is characterized in that: described socket connector also comprises the metal shielding casing that coats jack body, described shielding casing comprises roof, the two side of the diapire relative with roof and connection roof and diapire, described roof hides the top of spliced eye, diapire hides the bottom of spliced eye, roof and the first hyoplastron separate between the upper and lower, diapire and the second hyoplastron separate between the upper and lower, spacing between roof and the first hyoplastron be less than first, spacing between spacing between the second hyoplastron and diapire and the second hyoplastron, described sidewall is coated on the first sidepiece, on above-below direction, described the first sidepiece is clamped by roof and diapire.

8. socket connector according to claim 1 is characterized in that: described socket connector also comprises and hiding at the second hyoplastron top and the metallic plate between first, second socket end subgroup.

9. a pin connector, it comprises header body and is contained in the some plug terminals in header body, described header body comprise that main part and autonomous body protrude out forward first, second substrate, described plug terminal comprises first, the second plug end subgroup, it is characterized in that: described first, second substrate separates between the upper and lower and is parallel to each other, first substrate is provided with and runs through forward first substrate in order to accommodate the U-shaped recess of socket connector, described first, between second substrate, form in order to accommodate the interface of socket connector, described the first plug end subgroup meets USB 2.0 standard transmission protocol, first, the combination of the second plug end subgroup meets USB 3.0 standard transmission protocol, described the first plug end subgroup has row and is located on first substrate and is exposed to the row's contact site in recess, described the second plug end subgroup has row and is located on second substrate and is exposed to the row's contact site in interface.

10. pin connector according to claim 9, it is characterized in that: described first, second plug terminal group is set to respectively five, described the first plug end subgroup meets Micro-USB 2.0 standard transmission protocol, the combination of first, second plug end subgroup meets Micro-USB 3.0 standard transmission protocol, and described first substrate is positioned at the top of second substrate and the width on left and right directions is greater than second substrate.

11. pin connector according to claim 9, it is characterized in that: described pin connector comprises coating first, the metal shell of second substrate, described metal shell comprises roof, the two lateral walls of diapire 612 and connection roof and diapire, roof and diapire are that level is tabular, roof is downwards by being attached on first substrate and hiding recessed top, diapire is upwards by being attached on second substrate, each sidewall comprises the first vertical wall be connected with roof, reach from the first vertical wall the inclined wall extended to the inside downwards, the second vertical wall of the horizontal wall of extending to the inside from inclined wall and connection horizontal wall and diapire, the first vertical wall, inclined wall and horizontal wall are respectively by being attached on first substrate, described interface is formed on first substrate, between second substrate and the second vertical wall.

12. pin connector according to claim 9, it is characterized in that: described plug end subgroup also comprises and being contained in header body with an inspection terminal of detecting socket connector, and inspection terminal is provided with the contact site that row is located at second substrate and is positioned at the second plug end subgroup outside.

13. pin connector according to claim 9, it is characterized in that: described header body comprises an insulator, and is assembled in forward respectively first, second collets on insulator, described first, second substrate is to be located on insulator, described the first plug end subgroup is embedded on the first collets, described the second plug end subgroup is embedded on the second collets, and the contact site of first, second plug end subgroup protrudes out forward first, second collets.

14. pin connector according to claim 13, it is characterized in that: described pin connector also comprises cable, described first, second plug end subgroup also comprises and is exposed to the connecting portion that first, second collets rear end upper surface and cable weld together, and the connecting portion of the connecting portion of the first plug end subgroup and the second plug end subgroup is reaching on fore-and-aft direction and mutually staggering and arrange up and down.

15. pin connector according to claim 13, it is characterized in that: described insulator two sides also are concaved with pre-and post perforative slit and are positioned at the confinement block of slit, the second collets are provided with a pair of fixed arm protruded out forward and the clasp piece that is convexly set in the fixed arm end, fixed arm inserts forward in slit, and the clasp piece is snapped on confinement block backward.

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