CN204966763U - Socket electric connector - Google Patents

Abstract

The utility model provides a socket electric connector includes one and glues core print seat and flat terminal group. This glue core print seat has a hyoplastron structure and a gluey core print seat back end, this flat terminal group comprises a plurality of flat terminal, these a plurality of flat terminal wherein at least one include connecting portion, a contact site and a weld part, these connecting portion combine in this glue core print seat, this contact site is extended and projection in one of this hyoplastron structure first surface towards this hyoplastron structure by these connecting portion, this weld part is glued the core print seat back end by these connecting portion towards this and is extended projection in this gluey core print seat back end, one of one of this contact site the central axis and this weld part the central axis is at a distance of an offset distance, and this contact site and this weld part are connected to these connecting portion.

Description

Electric connector for socket

Technical field

The utility model is about a kind of electric connector for socket, and espespecially one is applicable to the electric connector for socket of universal serial bus Port.

Background technology

Along with the development of computer and perimeter equipment industry, universal serial bus (UniversalSerialBus, USB) has become one of the communication of computer and peripheral equipment and the important interface of data transmission.Along with social development, higher signal speed rates is real be a kind of trend, for the needs in exploitation current epoch especially of transmitting the electric connector of higher rate.Therefore, a kind of new USB specification (USB3.0) is then applied and gives birth to, and the connector meeting USB3.0 specification is in time being welded in each terminal soldering portion on circuit board, often because the spacing between terminal soldering portion is not enough, and interfere each other, what in limited space, therefore how effectively to arrange each terminal of electric connector is set to one of problem that industry makes great efforts.

Utility model content

The utility model provides one to be applicable to universal serial bus Port and has the electric connector for socket of expansion terminal setting, to solve the problem.

The utility model discloses a kind of electric connector for socket, and it is applicable to a circuit board, and electric connector for socket includes: a shell; One glue core print seat, has a clapper structure and a glue core print seat back segment, and clapper structure to be arranged in shell and to have a first surface and a second surface; One conductive structure, is arranged on glue core print seat; One shielding part, is arranged in clapper structure; And one first dull and stereotyped terminal group, be made up of multiple first dull and stereotyped terminal, it is characterized in that of multiple first dull and stereotyped terminal: at least onely to include: one first connecting portion, is incorporated into glue core print seat; One first contact site, to be extended towards clapper structure by the first connecting portion and is stretched on first surface; And one first weld part, to be extended towards glue core print seat back segment by the first connecting portion and be stretched on glue core print seat back segment; One of one of first contact site central axis and the first weld part central axis is at a distance of one first offset distance, and the first connecting portion connects the first contact site and the first weld part.

Described first dull and stereotyped terminal arranges along an in-plane interval and each other side by side, the first offset distance has one first horizontal-shift distance, and the central axis of the central axis of the first contact site and the first weld part is along in-plane the first horizontal-shift distance apart.

Described first dull and stereotyped terminal along one in-plane interval arrange and each other side by side, first offset distance separately has one first vertical shift distance, and the central axis of the central axis of the first contact site and the first weld part along one of the central axis perpendicular to in-plane and the first contact site elevation direction apart the first vertical shift distance.

Electric connector for socket according to claim 2, is characterized in that: described first dull and stereotyped terminal includes at least one first earth terminal, at least one first signal terminal and at least one first power supply terminal along in-plane.

Above-mentioned electric connector separately includes: one second dull and stereotyped terminal group, is made up of, it is characterized in that of multiple second dull and stereotyped terminal multiple second dull and stereotyped terminal: at least onely include: one second connecting portion, is incorporated into glue core print seat;

One second contact site, to be extended towards clapper structure by the second connecting portion and is stretched on second surface; One second weld part, to be extended towards glue core print seat back segment by the second connecting portion and is stretched on glue core print seat back segment; One of one of second contact site central axis and the second weld part central axis is at a distance of one second offset distance, and the second connecting portion connects the second contact site and the second weld part.

Described second dull and stereotyped terminal along one in-plane interval arrange and each other side by side, second offset distance separately has one second vertical shift distance, and the central axis of the central axis of the second contact site and the second weld part along one of the central axis perpendicular to in-plane and the second contact site elevation direction apart the second vertical shift distance.

Described second dull and stereotyped terminal includes at least one second earth terminal, at least one second signal terminal and at least one second source terminal along in-plane.

Described glue core print seat includes one first glue core print seat and is combined in one of first glue core print seat second glue core print seat, first glue core print seat has one first glue core print seat upper surface, one first glue core print seat lower surface, one first glue core print seat leading portion and one first glue core print seat back segment, second glue core print seat has one second glue core print seat upper surface, one second glue core print seat lower surface, one second glue core print seat leading portion and one second glue core print seat back segment, clapper structure protrudes from the first glue core print seat, first connecting portion is incorporated into the first glue core print seat, second connecting portion is incorporated into the second glue core print seat, when the second glue core print seat is combined in the first glue core print seat, first glue core print seat rear end and the second glue core print seat front end define glue core print seat rear end jointly, and the first glue core print seat upper surface abuts the second glue core print seat lower surface.

Described conductive structure includes one first conducting strip and one second conducting strip, and the first conducting strip is arranged at the first glue core print seat lower surface, and the second conducting strip is arranged at the second glue core print seat upper surface.

Described first dull and stereotyped terminal group and the second dull and stereotyped terminal group have at least two pairs of difference signal terminals pair respectively, and at least two pairs of difference signal terminals of at least two pairs of difference signal terminals of the first dull and stereotyped terminal group pair and the second dull and stereotyped terminal group are symmetrical for pivot revolves turnback with the fore-and-aft direction of electric connector for socket.

Described adjacent two first weld parts are at a distance of one first spacing, adjacent two first contact sites are at a distance of one second spacing, and the first spacing is not equal to the second spacing, and adjacent two second weld parts are at a distance of one the 3rd spacing, and adjacent two second contact sites are at a distance of one the 4th spacing, and the 3rd spacing is not equal to the 4th spacing.

Described adjacent two first weld parts are at a distance of one first spacing, and adjacent two first contact sites are at a distance of one second spacing, and the first spacing is not equal to the second spacing.

Beneficial effect: the central axis of the first signal terminal contact site of the utility model and the central axis of the first signal terminal weld part are at a distance of the first offset distance, and the first signal terminal connecting portion connects the first signal terminal contact site and the first signal terminal weld part, make the spacing of adjacent two first signal terminal contact sites can be not equal to the spacing of adjacent two first signal terminal weld parts, therefore the spacing of adjacent two first signal terminal contact sites can according to Specification Design, to guarantee the versatility of electric connector, and the spacing of adjacent two first signal terminal weld parts flexibly can adjust according to the welding position on circuit board, to reach preferably space utilization, avoid the effect interfering with each other and reduce manufacturing cost between terminal.

Accompanying drawing explanation

Fig. 1 is the schematic appearance of the utility model first embodiment electric connector for socket.

Fig. 2 and Fig. 3 is that the utility model first embodiment electric connector for socket is in the exploded perspective view of different visual angles.

Fig. 4 is the top view of the first dull and stereotyped terminal group of the utility model first embodiment electric connector for socket.

Fig. 5 is the schematic diagram that the first dull and stereotyped terminal group of the utility model first embodiment electric connector for socket is arranged at circuit board.

Fig. 6 is the schematic diagram that the first dull and stereotyped terminal group of the utility model first embodiment electric connector for socket and the second dull and stereotyped terminal group are arranged at circuit board.

Fig. 7 is the generalized section of the first dull and stereotyped terminal of the utility model first embodiment electric connector for socket, the second dull and stereotyped terminal and circuit board.

Fig. 8 is the top view of the first dull and stereotyped terminal group of the utility model second embodiment electric connector for socket.

Fig. 9 is the schematic appearance of the utility model the 3rd embodiment electric connector for socket.

Figure 10 is the generalized section of the first dull and stereotyped terminal of the utility model the 3rd embodiment electric connector for socket, the second dull and stereotyped terminal and circuit board.

Symbol description

1,1 ' ' electric connector for socket

10,10 ' ' circuit board

12,12 ' ' shell

121 first shells

1210 housings

1212 welding foots

1214 engaging bumps

123 second housings

1230 slots

14 first glue core print seats

141 first glue core print seat upper surfaces

143 first glue core print seat lower surfaces

145 first glue core print seat leading portions

147 first glue core print seat back segments

16 second glue core print seats

161 second glue core print seat upper surfaces

163 second glue core print seat lower surfaces

165 second glue core print seat leading portions

167 second glue core print seat back segments

18 first conducting strips

20 second conducting strips

22 shielding parts

24, the 24 ' first dull and stereotyped terminal group

240,240 ', 240 ' ' the first dull and stereotyped terminal

2401,2401 ', 2401 ' ' the first connecting portion

2402,2402 ', 2402 ' ' the first contact site

2403,2403 ', 2403 ' ' the first weld part

26 second dull and stereotyped terminal group

260,260 ' ' the second dull and stereotyped terminal

2601,2601 ' ' the second connecting portion

2602,2602 ' ' the second contact site

2603,2603 ' ' the second weld part

28 conductive structures

30 glue core print seats

301 clapper structures

3012 first surfaces

3014 second surfaces

303 glue core print seat back segments

D1, D1 ' first offset distance

D11, D11 ' first horizontal-shift distance

D12, D12 ' ' first vertical shift distance

D2, D2 ' ' second offset distance

D22, D22 ' ' second vertical shift distance

L1, L1 ' first spacing

L2, L2 ' second spacing

X in-plane

Y elevation direction.

Embodiment

Refer to Fig. 1 to Fig. 3, Fig. 1 is the schematic appearance of the utility model first embodiment one electric connector for socket 1, Fig. 2 and Fig. 3 is that the utility model first embodiment electric connector for socket 1 is in the exploded perspective view of different visual angles.As shown in Figure 1 to Figure 3, electric connector for socket 1 is arranged at a circuit board 10 and includes the dull and stereotyped terminal group 26 of shell 12, conductive structure 28, glue core print seat 30, dull and stereotyped terminal group 24,1 second of shielding part 22,1 first.Shell 12 includes one first shell 121 and second housing 123, first shell 121 is fixedly arranged on circuit board 10, and second housing 123 is fixedly arranged on the first shell 121 and around formation one accommodation space 125, accommodation space 125 is in order to accommodating glue core print seat 30.First shell 121 includes housing 1210, two welding foot 1212 and two engaging bumps 1214, two welding foots 1212 be stretched on housing 1210 and build-in in circuit board 10, two engaging bumps 1214 are formed on housing 1210, second housing is formed with a slot 1230, and two engaging bumps 1214 are arranged in slot 1230, make the first shell 1210 be fixed on second housing 123 in the mode of riveted.Glue core print seat 30 has clapper structure 301 and a glue core print seat back segment 303, clapper structure 301 to be arranged in shell 121 and to have first surface 3012 and a second surface 3014, conductive structure 28 is arranged on glue core print seat 30, and shielding part 22 is arranged in the clapper structure 301 of glue core print seat 30.In this embodiment, glue core print seat 28 includes one first glue core print seat 14 and is combined in one of first glue core print seat 14 second glue core print seat 16, and conductive structure 28 includes one first conducting strip 18 and one second conducting strip 20.

Further, first glue core print seat 14 has one first glue core print seat upper surface 141, one first glue core print seat lower surface 143, one first glue core print seat leading portion 145 and one first glue core print seat back segment 147, second glue core print seat 16 has one second glue core print seat upper surface 161, one second glue core print seat lower surface 163, one second glue core print seat leading portion 165 and one second glue core back segment 167, clapper structure 301 protrudes from the first glue core print seat 14, when the second glue core print seat 16 is installed on the first glue core print seat 14, first glue core print seat upper surface 141 abuts the second glue core print seat lower surface 163, and the first glue core print seat back segment 147 and the second glue core print seat back segment 167 define glue core print seat rear end 303 jointly.First conducting strip 18 is arranged at the first glue core print seat lower surface 143, second conducting strip 20 and is arranged at the second glue core print seat upper surface 161, and shielding part 22 is arranged in clapper structure 301.

Referring again to Fig. 4 to Fig. 5, Fig. 4 is the top view of the first dull and stereotyped terminal group 24 of the utility model first embodiment electric connector for socket 1, and Fig. 5 is the schematic diagram that the first dull and stereotyped terminal group 24 of the utility model first embodiment electric connector for socket 1 is arranged at circuit board 10.As shown in Figures 2 to 5, first dull and stereotyped terminal group 24 is arranged at the first glue core print seat 14, first dull and stereotyped terminal group 24 is made up of multiple first dull and stereotyped terminal 240, its be along one in-plane X interval arrange and each other side by side, multiple the wherein at least one of first dull and stereotyped terminal 240 includes one first connecting portion 2401, one first contact site 2402 and one first weld part 2403, first connecting portion 2401 is incorporated into the first glue core print seat 14 of glue core print seat 30, first contact site 2402 to be extended towards the first glue core print seat leading portion 145 by the first connecting portion 2401 and exposes to the first glue core print seat leading portion 145, namely the first contact site 2402 to be extended towards clapper structure 301 by the first connecting portion 2401 and is stretched on first surface 3012, first weld part 2403 to be extended towards the first glue core print seat back segment 147 by the first connecting portion 2401 and is stretched on the first glue core print seat back segment 147, namely the first weld part 2403 to be extended towards glue core print seat back segment 303 by the first connecting portion 2401 and is stretched on glue core print seat back segment 303, and the first connecting portion 2401 connects the first contact site 2402 and the first weld part 2403.In this embodiment, the first dull and stereotyped terminal group 24 includes at least one first signal terminal 241, at least one first earth terminal 243 and at least one first power supply terminal 245.

As shown in Figure 4, one of one of first contact site 2402 central axis and the first weld part 2403 central axis is at a distance of one first offset distance D1, first offset distance D1 includes along one of in-plane X first horizontal-shift distance D11, because this central axis of the first contact site 2402 and this central axis of the first weld part 2403 are along in-plane X the first horizontal-shift distance D11 apart, therefore one first spacing L1 between adjacent two first contact sites 2402 can be not equal to one second spacing L2 between adjacent two 1 weld parts 2403, arranged in expansion towards the first glue core print seat back segment 147 by the first glue core print seat leading portion 145 on in-plane X to make the first dull and stereotyped terminal group 24.

Refer to Fig. 2, Fig. 3 and Fig. 6, Fig. 6 is the schematic diagram that the first dull and stereotyped terminal group 24 of the utility model first embodiment electric connector for socket 1 and the second dull and stereotyped terminal group 26 are arranged at circuit board 10.As Fig. 2, shown in Fig. 3 and Fig. 6, second dull and stereotyped terminal group 26 is arranged at the second glue core print seat 16, second dull and stereotyped terminal group 26 is made up of multiple second dull and stereotyped terminal 260, its be along in-plane X interval arrange and each other side by side, multiple the wherein at least one of second dull and stereotyped terminal 260 includes one second connecting portion 2601, one second contact site 2602 and one second weld part 2603, second connecting portion 2601 is incorporated into the second glue core print seat 16 of glue core print seat 30, second contact site 2602 to be extended towards the second glue core print seat leading portion 165 by the second connecting portion 2601 and exposes to the second glue core print seat leading portion 165, namely the second contact site 2602 to be extended towards clapper structure 301 by the second connecting portion 2601 and is stretched on second surface 3014, second weld part 2603 to be extended towards the second glue core print seat back segment 167 (i.e. glue core print seat back segment 303) by the second connecting portion 2601 and is stretched on the second glue core print seat back segment 167, and the second connecting portion 2601 connects the second contact site 2602 and the second weld part 2603.In this embodiment, the second dull and stereotyped terminal group 26 includes at least one second signal terminal 261, at least one second earth terminal 263 and at least one second source terminal 265.

In addition, one of one of second contact site 2602 central axis and the second weld part 2603 central axis is at a distance of one second offset distance D2, but with the first dull and stereotyped terminal 240 unlike, second offset distance D2 does not have along one of in-plane X second horizontal-shift distance, i.e. this central axis of the second contact site 2602 and this central axes of the second weld part 2603, in other words, the spacing of adjacent two second weld parts 2603 is equal to the spacing (as shown in Figure 6) of adjacent two second contact sites 2602.And the second contact site 2602 of the dull and stereotyped terminal group of the utility model second 26 and the structural design Ke Bu Authority of the second weld part 2603 are limited to, and this embodiment is graphic to be illustrated, namely also the second horizontal-shift distance can be had apart between the second contact site 2602 of at least one second dull and stereotyped terminal 260 and the second weld part 2603, second dull and stereotyped terminal group 26 is arranged in expansion, looks closely actual design demand and determine.

It is worth mentioning that, refer to Fig. 4 and Fig. 7, Fig. 7 is the first dull and stereotyped terminal 260 of dull and stereotyped terminal 240, second of the utility model first embodiment electric connector for socket 1 and the generalized section of circuit board 10.As shown in Fig. 4 and Fig. 7, first offset distance D1 separately comprises one first vertical shift distance D12, this central axis of first contact site 2402 of the first dull and stereotyped terminal 240 and this central axis of the first weld part 2403 except along in-plane X except one first horizontal-shift distance D11 (as shown in Figure 4), this central axis of first contact site 2402 and this central axis of the first weld part 2403 are along one of this central axis perpendicular to in-plane X and the first contact site 2402 elevation direction Y one first vertical shift distance D12 (as shown in Figure 7) apart, namely the first contact site 2402 and the first weld part 2403 have one first depth displacement (i.e. the first vertical shift distance D12) along elevation direction Y.In practice, the first connecting portion 2401 not only bends towards in-plane X, and the first connecting portion 2401 also bends towards elevation direction Y simultaneously, and the first connecting portion 2401 just can connect the first contact site 2402 and the first weld part 2403 at a distance of this first depth displacement by this.

Similarly, second offset distance D2 separately includes one second vertical shift distance D22, this central axis of second contact site 2602 and this central axis of the second weld part 2603 are along elevation direction Y at a distance of one second vertical shift distance D22 (as shown in Figure 7), and namely the second contact site 2602 and the second weld part 2603 have one second depth displacement (i.e. the second vertical shift distance D22) along elevation direction Y.That is, this central axis of second contact site 2602 and this central axis of the second weld part 2603 at a distance of the second offset distance D2 only comprise this central axis of the second contact site 2602 with this central axis of the second weld part 2603 along elevation direction Y at a distance of the second vertical shift distance D22, this central axis of the second contact site 2602 and this central axis of the second weld part 2603 apart the second offset distance D2 do not comprise this second horizontal-shift distance along in-plane X.In practice, the second connecting portion 2601 only bends towards elevation direction Y, and the second connecting portion 2601 just can connect the second contact site 2602 and the second weld part 2603 be positioned at a distance of the second depth displacement by this.

In this embodiment, electric connector for socket 1 is a universal serial bus Type-C (UniversalSerialBusType-C, USBType-C) electric connector for socket, first dull and stereotyped terminal group 24 and the second dull and stereotyped terminal group 26 can comprise the signal terminal of USB3.0 socket connector respectively, earth terminal and power supply terminal, wherein the first dull and stereotyped terminal group 24 and the second dull and stereotyped terminal group 26 can have at least two pairs of difference signal terminals pair respectively, at least two pairs of difference signal terminals of at least two pairs of difference signal terminals of the first dull and stereotyped terminal group 24 pair and the second dull and stereotyped terminal group 26 are symmetrical for pivot revolves turnback with the fore-and-aft direction of socket connector 1.Specifically, first dull and stereotyped terminal group 24 includes earth terminal (GND), difference signal terminal from left to right in order to (RX1+, RX1-), power supply terminal (VBUS), auxiliary signal terminal (SBU2), difference signal terminal are to (D-, D+), positioning terminal (CC2), power supply terminal (VBUS), difference signal terminal are to (TX2-, TX2+), earth terminal (GND).Difference signal terminal can provide to (TX2+, TX2-), difference signal terminal the signal transmission meeting USB3.0 or USB3.1 respectively to (RX1-, RX1+).Difference signal terminal is to (D-, D+) signal transmission meeting USB2.0 can be provided, spacing between each first contact site 2402 of the first dull and stereotyped terminal group 24 meets USBTYPE-C specification, each first weld part 2403 then connects each first contact site 2402 by each first connecting portion 2401, makes difference signal terminal (RX1), power supply terminal (VBUS), auxiliary signal terminal (SBU2), difference signal terminal is to (D-, D+), positioning terminal (CC2), the spacing of the weld part of power supply terminal (VBUS) and difference signal terminal (TX2-) is not equal to the spacing of its contact site, to reach preferably space utilization, wherein the first weld part 2403(of adjacent two first signal terminals 241 i.e. auxiliary signal terminal (SBU2), difference signal terminal is to (D-, D+), the weld part of positioning terminal (CC2)) at a distance of one first spacing L1, first contact site 2402 of adjacent two first signal terminals 241 is at a distance of one second spacing L2, and the first spacing L1 is not equal to the second spacing L2), the second dull and stereotyped terminal group 26 includes earth terminal (GND) from left to right in order, difference signal terminal is to (TX1+, TX1-), power supply terminal (VBUS), positioning terminal (CC1), difference signal terminal is to (D+, D-), auxiliary signal terminal (SBU1), power supply terminal (VBUS), difference signal terminal is to (RX2-, RX2+), earth terminal (GND).Difference signal terminal can provide to (TX1+, TX1-), difference signal terminal the signal transmission meeting USB3.0 or USB3.1 respectively to (RX2-, RX2+).Difference signal terminal is to (D-, D+) signal transmission meeting USB2.0 can be provided, spacing between each second contact site 2602 of the second dull and stereotyped terminal group 26 meets USBTYPE-C specification, and the spacing between each second weld part 2603 is equal to the spacing between each second contact site 2602.

It is worth mentioning that, first conducting strip 18 and the second conducting strip 20 can be respectively an electromagnetic interference shielding shell fragment (ElectroMagneticInterferencespring of this USB3.0 socket connector, and shielding part 22 can be the barricade (shieldingplate) of this USB3.0 socket connector EMIspring).This electromagnetic interference shielding shell fragment (i.e. the first conducting strip 18 and the second conducting strip 20) is the outside of the both sides up and down of the glue core print seat (first glue core print seat 14 and the second glue core print seat 16) being arranged on this USB3.0 socket connector (i.e. socket connector 1), and this barricade (i.e. shielding part 22) be coated on USB3.0 socket connector glue core print seat in locate between the terminal of this USB3.0 socket connector.

Refer to Fig. 8, Fig. 8 is the top view of one of the utility model second embodiment electric connector for socket 1 ' the first dull and stereotyped terminal group 24 '.As shown in Figure 8, electric connector for socket 1 ' and the first embodiment electric connector for socket 1 unlike, one of first weld part 2403 ' of first signal terminal 241 ' of the first dull and stereotyped terminal group 24 ' one of central axis and the first contact site 2402 ' central axis is along in-plane X one first horizontal-shift distance D11 ' apart, one of first weld part 2403 ' of one of the first dull and stereotyped terminal group 24 ' the first earth terminal 243 ' central axis overlaps in in-plane X with one of the first contact site 2402 ' central axis, one of first weld part 2403 ' of one of the first dull and stereotyped terminal group 24 ' the first power supply terminal 245 ' central axis overlaps in in-plane X with one of the first contact site 2402 ' central axis, therefore in the present embodiment, only the first signal terminal 241 ' of the first dull and stereotyped terminal 24 ' is arranged in expansion, namely the first weld part 2403 ' of adjacent two first signal terminals 241 ' is at a distance of one first spacing L1 ', and the first contact site 2402 ' of adjacent two first signal terminals 241 ' is at a distance of one second spacing L2 ', and the first spacing L1 ' is not equal to the second spacing L2 '.And this embodiment and other elements in above-described embodiment with similar label, it has identical structural design and action principle, for the sake of clarity, repeats no more in this.

Refer to Fig. 9 and Figure 10, one of Fig. 9 is the utility model the 3rd embodiment electric connector for socket 1 ' ' schematic appearance, Figure 10 is the utility model the 3rd embodiment electric connector for socket 1 ' ' the first dull and stereotyped terminal 240 ' ', one second dull and stereotyped terminal 260 ' ' and a circuit board 10 ' ' generalized section.As shown in Fig. 9 and Figure 10, electric connector for socket 1 ' ' with described in the second embodiment electric connector for socket 1 ' unlike, one of first dull and stereotyped terminal 240 ' one of ' the first weld part 2403 ' ' central axis and one first contact site 2402 ' ' one of central axis have one of larger first vertical shift distance D12 ' ' apart along elevation direction Y, and the second dull and stereotyped terminal 260 " one of one of the second weld part 2603 ' one of ' central axis with in one second contact site 2602 ' ' central axis have one of larger second vertical shift distance D22 ' ' apart along elevation direction Y, therefore one first connecting portion 2401 ' ' and one second connecting portion 2601 ' ' has one of longer bending length along the elevation direction Y perpendicular to in-plane X, to make the first weld part 2403 ', ' and the second weld part 2603 ' ' is corresponding to circuit board 10 ' ' upper welding position.And this embodiment and other elements in previous embodiment with similar label, it has identical structural design and action principle, for the sake of clarity, repeats no more in this.

In sum, the central axis of the terminal contact portion of the utility model and the central axis in terminal soldering portion have offset distance, make the spacing of the sub-contact site of adjacent both ends can be not equal to the spacing of the sub-weld part of adjacent both ends, therefore the spacing of the sub-contact site of adjacent both ends can according to Specification Design, to guarantee the versatility of electric connector, and the spacing of the sub-weld part of adjacent both ends flexibly can adjust according to the welding position on circuit board, to reach preferably space utilization, reduce welding sequence and to reduce effect of manufacturing cost.

Claims (12)

1. an electric connector for socket, it is applicable to a circuit board, and electric connector for socket includes:

One shell;

One glue core print seat, has a clapper structure and a glue core print seat back segment, and clapper structure to be arranged in shell and to have a first surface and a second surface;

One conductive structure, is arranged on glue core print seat;

One shielding part, is arranged in clapper structure; And

One first dull and stereotyped terminal group, is made up of multiple first dull and stereotyped terminal, it is characterized in that of multiple first dull and stereotyped terminal: at least onely include:

One first connecting portion, is incorporated into glue core print seat;

One first contact site, to be extended towards clapper structure by the first connecting portion and is stretched on first surface; And

One first weld part, to be extended towards glue core print seat back segment by the first connecting portion and is stretched on glue core print seat back segment;

It is characterized in that: one of one of first contact site central axis and the first weld part central axis is at a distance of one first offset distance, and the first connecting portion connects the first contact site and the first weld part.

2. electric connector for socket according to claim 1, it is characterized in that: described first dull and stereotyped terminal along one in-plane interval arrange and each other side by side, first offset distance has one first horizontal-shift distance, and the central axis of the central axis of the first contact site and the first weld part is along in-plane the first horizontal-shift distance apart.

3. electric connector for socket according to claim 2, it is characterized in that: described first dull and stereotyped terminal along one in-plane interval arrange and each other side by side, first offset distance separately has one first vertical shift distance, and the central axis of the central axis of the first contact site and the first weld part along one of the central axis perpendicular to in-plane and the first contact site elevation direction apart the first vertical shift distance.

4. electric connector for socket according to claim 2, is characterized in that: described first dull and stereotyped terminal includes at least one first earth terminal, at least one first signal terminal and at least one first power supply terminal along in-plane.

5. electric connector for socket according to claim 1, is characterized in that: separately include:

One second dull and stereotyped terminal group, is made up of multiple second dull and stereotyped terminal, it is characterized in that of multiple second dull and stereotyped terminal: at least onely include:

One second connecting portion, is incorporated into glue core print seat;

One second contact site, to be extended towards clapper structure by the second connecting portion and is stretched on second surface;

One second weld part, to be extended towards glue core print seat back segment by the second connecting portion and is stretched on glue core print seat back segment;

One of one of second contact site central axis and the second weld part central axis is at a distance of one second offset distance, and the second connecting portion connects the second contact site and the second weld part.

6. electric connector for socket according to claim 5, it is characterized in that: described second dull and stereotyped terminal along one in-plane interval arrange and each other side by side, second offset distance separately has one second vertical shift distance, and the central axis of the central axis of the second contact site and the second weld part along one of the central axis perpendicular to in-plane and the second contact site elevation direction apart the second vertical shift distance.

7. electric connector for socket according to claim 5, is characterized in that: described second dull and stereotyped terminal includes at least one second earth terminal, at least one second signal terminal and at least one second source terminal along in-plane.

8. electric connector for socket according to claim 5, it is characterized in that: described glue core print seat includes one first glue core print seat and is combined in one of first glue core print seat second glue core print seat, first glue core print seat has one first glue core print seat upper surface, one first glue core print seat lower surface, one first glue core print seat leading portion and one first glue core print seat back segment, second glue core print seat has one second glue core print seat upper surface, one second glue core print seat lower surface, one second glue core print seat leading portion and one second glue core print seat back segment, clapper structure protrudes from the first glue core print seat, first connecting portion is incorporated into the first glue core print seat, second connecting portion is incorporated into the second glue core print seat, when the second glue core print seat is combined in the first glue core print seat, first glue core print seat rear end and the second glue core print seat front end define glue core print seat rear end jointly, and the first glue core print seat upper surface abuts the second glue core print seat lower surface.

9. electric connector for socket according to claim 8, is characterized in that: described conductive structure includes one first conducting strip and one second conducting strip, and the first conducting strip is arranged at the first glue core print seat lower surface, and the second conducting strip is arranged at the second glue core print seat upper surface.

10. electric connector for socket according to claim 5, it is characterized in that: described first dull and stereotyped terminal group and the second dull and stereotyped terminal group have at least two pairs of difference signal terminals pair respectively, at least two pairs of difference signal terminals of at least two pairs of difference signal terminals of the first dull and stereotyped terminal group pair and the second dull and stereotyped terminal group are symmetrical for pivot revolves turnback with the fore-and-aft direction of electric connector for socket.

11. electric connector for socket according to claim 5, it is characterized in that: described adjacent two first weld parts are at a distance of one first spacing, adjacent two first contact sites are at a distance of one second spacing, first spacing is not equal to the second spacing, adjacent two second weld parts are at a distance of one the 3rd spacing, and adjacent two second contact sites are at a distance of one the 4th spacing, and the 3rd spacing is not equal to the 4th spacing.

12. electric connector for socket according to claim 1, is characterized in that: described adjacent two first weld parts are at a distance of one first spacing, and adjacent two first contact sites are at a distance of one second spacing, and the first spacing is not equal to the second spacing.