CN208767490U - Electric connector for socket - Google Patents

Abstract

A kind of electric connector for socket, including insulating body, a plurality of first female terminals and a plurality of second female terminals.Insulating body includes pedestal and hyoplastron.First female terminal and the second female terminal first pass through bending in advance, then are directly embedded into ejection formation insulating body.In this way, the first bending segment of the first female terminal and the second bending segment of the second female terminal are embedded in pedestal.First welding section is extended by the first bending segment, and protrudes from pedestal, and the junction of the first bending segment and the first welding section is embedded at pedestal.Second welding section is extended by the second bending segment, and protrudes from pedestal, and the junction of the second bending segment and the second welding section is embedded at pedestal.In this way, female terminal directly can be fixedly arranged on insulating body, the process and cost for simplifying structure, also reducing processing procedure.

Description

Electric connector for socket

Technical field

The utility model system particularly relates to a kind of electric connector for socket about a kind of electric connector field.

Background technique

On traditional technology, the production of electric connector for socket is the female terminal material strip for preparing plane formula in advance, with localized mode Change, the program repeat progress of mold bending terminal, the construction of insulating body is completed with sectional making.After local modelling, The bending end period of the day from 11 p.m. to 1 a.m may need in advance to remove material strip, this may cause the deformation or dislocation of terminal, plug structure after must separately designing Carry out fixing terminal.

For structure due to female terminal with designing rear end, terminal might have multiple bending.Thus, segmentation modelling, The program of segmentation bending and assembling, station will become more, and whole processing procedure process is more complicated.In addition, the deformation or dislocation of terminal, Also the yield that may cause in subsequent production is bad.Thus, electric connector for socket needs higher cost of manufacture and design cost, And longer working hour, therefore where how solving the problem of that the as related dealer of conventional construction must think deeply.

Summary of the invention

In view of the above problem, the utility model system provides a kind of electric connector for socket.Electric connector for socket includes insulation Ontology, a plurality of first female terminals and a plurality of second female terminals.Each first female terminal include the first contact-segment, First linkage section, the first bending segment and the first welding section, the first contact-segment and the first bending segment are respectively by the two of the first linkage section End extends, the other end of first welding section by the first bending segment relative to the first linkage section extends.Each second female terminal includes Second contact-segment, the second linkage section, the second bending segment and the second welding section, the second contact-segment and the second bending segment are respectively by the The both ends of two linkage sections extend, the other end of second welding section by the second bending segment relative to the second linkage section extends.

Insulating body includes to the pedestal of each first female terminal and each second female terminal ejection formation and by pedestal one Hold the hyoplastron of extension.Hyoplastron includes first surface, second surface and front side surface.First contact-segment is locally coated on the first table Face, and the first contact-segment Partial exposure is in the first surface of hyoplastron.Second surface is relative to first surface, the second contact-segment part It is coated on second surface, and the second contact-segment Partial exposure is in the second surface of hyoplastron.Front side surface connects first surface and the Two surfaces.Another pedestal then forms a plurality of first terminals and buries channel and the embedded channel of a plurality of Second terminals.Each first end The first holding channel buried for the first linkage section is defined in the embedded channel of son, and is connected with the first holding channel and curved for first The first embedded bent passage of trisection.First welding section protrudes from pedestal.Each Second terminal is buried channel and is defined for the second connection The second bent passage for the second embedded holding channel of section and being connected with the second holding channel and being buried for the second bending segment.The Two welding sections protrude from pedestal.

In some embodiments, each first contact-segment cuts end comprising first, and first cuts the front side that end is embedded in hyoplastron Surface, each second contact-segment cut end comprising second, and second cuts the front side surface that end is embedded in hyoplastron.

Further, in some embodiments, the first contact-segment and the extending direction of the first welding section are substantially parallel, and the Two contact-segments and the extending direction of the second welding section are substantially parallel, and the first welding section and the second welding section are substantially parallel, and first The first Fixed Division and the second welding section of welding section and the handover of the first bending segment and the second Fixed Division of the second bending segment handover. In further embodiments, the first contact-segment and the extending direction of the first welding section are not parallel, and the second contact-segment is by the second welding The extending direction of section is not parallel, and the first welding section and the second welding section are substantially parallel, and the first welding section and the first bending segment are handed over Second Fixed Division system of the first Fixed Division and the second welding section that connect and the handover of the second bending segment is embedded at the same table of pedestal Face.

Further, first cut end with second cut end system be pre-attached on the first material strip, the first weld part System, the tail end system of tail end and the second weld part is pre-attached on the second material strip, wherein the first material strip and the second material strip system are located at not Same height.

In further embodiments, insulating body includes the first insulating body and the second insulating body, the first insulating body And second insulating body be mutually assembled.First insulating body includes the first hyoplastron and the first pedestal, and the first pedestal forms first end The embedded channel of son.Each first female terminal is fixedly arranged on the first insulating body, and a part of the first contact-segment is exposed to the first hyoplastron, First linkage section is embedded in the first holding channel, and the first bending segment is embedded in the first bent passage.First welding section is by One pedestal is pierced by, and the first Fixed Division system of the first welding section and the handover of the first bending segment is embedded at the first pedestal.Second insulation is originally Body includes the second hyoplastron and the second pedestal, and the second pedestal forms Second terminal and buries channel.Each second female terminal is fixedly arranged on Two insulating bodies, a part of the second contact-segment are exposed to the second hyoplastron.Second linkage section is embedded in the second holding channel, the Two bending segments are embedded in the second bent passage.Second welding section is pierced by by the second pedestal, the second welding section and the second bending segment Second Fixed Division of handover is embedded at the second pedestal.It is hyoplastron, the first pedestal and the second base that first hyoplastron and the second hyoplastron group, which connect, It is pedestal that seat group, which connects,.

Further, the first Fixed Division of the first welding section and the handover of the first bending segment is embedded at the table of the first pedestal Face, the second Fixed Division of the second Fixed Division joined with the second welding section and the second bending segment are embedded at the surface of the second pedestal, Substantially in coplanar after the first insulating body connects with the second insulating body group.

Further, in some embodiments, the first contact-segment and the extending direction of the first welding section are substantially parallel, and second Contact-segment and the extending direction of the second welding section are substantially parallel, and the extending direction of first welding section prolongs with second welding section It is substantially parallel to stretch direction.In further embodiments, the first contact-segment and the extending direction of the first welding section are substantially parallel, but the Two contact-segments and the extending direction of the second welding section are not parallel, and the extending direction of first welding section prolongs with second welding section It is not parallel to stretch direction.The first contact-segment and the extending direction of the first welding section are not parallel in yet other embodiments, and second connects It touches section and the extending direction of the second welding section is not parallel, the extension side of the extending direction of first welding section and second welding section To substantially parallel.

Further, it first cuts before end is pre-attached to first on material strip, second cuts before end is pre-attached to second On material strip, the tail end of the first welding section be pre-attached to first after on material strip, the tail end of the second welding section be pre-attached to second Afterwards on material strip, wherein material strip is located at after material strip and second before material strip is located at different height, second from material strip after first before first Different height.

In conclusion electric connector for socket is through in advance by the first female terminal, the second female terminal in advance prior to material strip Upper bending, then it directly is directly embedded into molding type with insulating body, in this way, plug structure carrys out fixing terminal after structure there is no palpus, It is directly embedded into ejection formation also and can avoid the deformation or dislocation of terminal, also can be reduced and bend terminal, the tail end by terminal in production The fixed process of plug structure after insertion can be reduced working hour, lower cost of manufacture and design cost.

In order to make the above-mentioned features and advantages of the utility model more obvious and understandable, special embodiment below, and appended by cooperation Schema is described in detail below.

Detailed description of the invention

Fig. 1 is the perspective view of electric connector for socket first embodiment.

Fig. 2A and Fig. 2 B is a sectional view for electric connector first embodiment.

Fig. 3 is the manufacturing process intermediate maturity perspective view of electric connector for socket first embodiment.

Fig. 4 is the manufacturing process intermediate maturity perspective view of electric connector for socket first embodiment.

Fig. 5 is the perspective view of electric connector for socket second embodiment.

Fig. 6 is the perspective view of electric connector for socket 3rd embodiment.

Fig. 7 is the sectional view of electric connector for socket 3rd embodiment.

Fig. 8 is the manufacturing process intermediate maturity perspective view of electric connector for socket 3rd embodiment.

Fig. 9 is the manufacturing process intermediate maturity perspective view of electric connector for socket 3rd embodiment.

Figure 10 is the perspective view of electric connector for socket fourth embodiment.

Figure 11 is the exploded view of the 5th embodiment of electric connector for socket.

Symbol description

1	Electric connector for socket	10	Insulating body
				11	Pedestal	111	Bottom surface
13	Hyoplastron	131	First surface
				133	Second surface	135	Front side surface
15	First terminal buries channel	151	First holding channel
				153	First bent passage	17	Second terminal buries channel
171	Second holding channel	173	Second bent passage
				20	First female terminal	21	First contact-segment
211	First cuts end	23	First linkage section
				25	First bending segment	251	First Fixed Division
27	First welding section	30	Second female terminal
				31	Second contact-segment	311	Second cuts end
33	Second linkage section	35	Second bending segment
				351	Second Fixed Division	37	Second welding section
40	First insulating body	41	First pedestal
				411	First lower surface	43	First hyoplastron
435	First front side surface	50	Second insulating body
				51	Second pedestal	511	Second lower surface
53	Second hyoplastron	535	Second front side surface
				610	First material strip	611	First material strip ontology
613	First material strip linkage section	615	Second material strip linkage section
				620	Second material strip	621	Second material strip ontology
623	First material strip extended segment	625	Second material strip extended segment
				710	Material strip before first	711	Material strip ontology before first
713	Material strip linkage section before first	730	Material strip after first
				731	Material strip ontology after first	733	Material strip linkage section after first
750	Material strip before second	751	Material strip ontology before second
				753	Material strip linkage section before second	770	Material strip after second
771	Material strip ontology after second	773	Material strip linkage section after second.

Specific embodiment

Fig. 1 is the perspective view of electric connector for socket first embodiment.Fig. 2A and Fig. 2 B is an electric connector first embodiment Sectional view.Fig. 3 and Fig. 4 is the manufacturing process intermediate maturity perspective view of electric connector for socket first embodiment.It is below to be electrically connected Connecing device 1 is with kind of display port (Displayport, DP) connector or mini display port (Mini a Displayport, Mini- DP it is example that) connector, which is done,.But this is only example, rather than to limit.

Shown in A, Fig. 2 B and Fig. 3 as shown in Figure 1, Figure 2, electric connector for socket 1 includes insulating body 10, a plurality of first socket ends Son 20 and a plurality of second female terminals 30.

First female terminal 20 includes the first contact-segment 21, the first linkage section 23, the first bending segment 25 and the first welding Section 27.First contact-segment 21 is bent and is extended by the both ends of the first linkage section 23 respectively with the first bending segment 25.First welding The other end of the section 27 by the first bending segment 25 relative to the first linkage section 23 extends.Second female terminal 30 includes the second contact The 31, second linkage section 33 of section, the second bending segment 35 and the second welding section 37.Second contact-segment 31 and the second bending segment 35 are distinguished It is bent and is extended by the both ends of the second linkage section 33, the second welding section 37 is by the second bending segment 35 relative to the second linkage section 33 The other end extend.

Insulating body 10 include to the pedestal 11 of each first female terminal 20 and each second female terminal, 30 ejection formation and By one of 11 one end of pedestal extension hyoplastron 13.Hyoplastron 13 includes first surface 131, second surface 133 and front side surface 135. Second surface 133 is located at the opposite side of first surface 131, and front side surface 135 connects first surface 131 and second surface 133.The One contact-segment, 21 part is coated on first surface 131, and 131 Partial exposure of the first contact-segment is in the first surface 131 of hyoplastron 13. Second contact-segment, 31 part is coated on second surface 133, and 31 Partial exposure of the second contact-segment is in the second surface of hyoplastron 13 133.In addition, pedestal 11 is then formed, a plurality of first terminals bury channel 15 and a plurality of Second terminals bury channel 17.The One terminal bury channel 15 define for the first linkage section 23 bury the first holding channel 151, and with 151 phase of the first holding channel Connection and the first bent passage 153 buried for the first bending segment 25.First welding section 27 protrudes from the bottom surface of pedestal 11 111.Second terminal bury channel 17 define for the second linkage section 33 bury the second holding channel 171 and with the second holding channel 171 the second bent passages 173 for being connected and being buried for the second bending segment 35.Second welding section 27 protrudes from the bottom table of pedestal 11 Face 111.

The axial direction of first holding channel 151 is different from the axial direction of the first bent passage 153, and the second accommodating is logical The axial direction in road 171 is different from the axial direction of the second bent passage 173.For example, the axial direction of the first holding channel 151 It is curved in generally perpendicular direction, the axial direction of the second holding channel 171 and second with the axial direction of the first bent passage 153 The axial direction for rolling over channel 173 is in generally perpendicular direction, is only example herein, and without being limited thereto.

Here, the first female terminal 20 and the second female terminal 30 are directly to be embedded at insulation through insertion ejection formation Ontology 10, the first linkage section 23, the first bending segment 25 with the second linkage section 33, the second bending segment 35 are directly to be embedded in respectively First terminal buries channel 15 and Second terminal is buried in channel 17.And the first welding section 27, the second welding section 37 then protrude from Outside pedestal 11.At this point, 251 system of the first Fixed Division of the first welding section 27 and the handover of the first bending segment 25 is embedded at the bottom of pedestal 11 Surface 111, and the second Fixed Division 351 of the second welding section 37 and the handover of the second bending segment 35 is embedded at the bottom surface of pedestal 11 111.Thus, the first female terminal 20 and the second female terminal 30 are directly to be embedded and be fixed in insulating body 10, thus need not In addition the mechanism of the first female terminal 20, the second female terminal 30 is fixed in setting.

In the first embodiment, the first female terminal 20 of electric connector for socket 1 is curved in advance with the second female terminal 30 After folding, it is to be integrally formed that ejection formation (insert-molding) insulating body 10 is directly embedded in insulating body 10.

Fig. 3 and Fig. 4 is the manufacturing process intermediate maturity perspective view of electric connector for socket first embodiment.Be herein with Fig. 3, Fig. 4, the sequence of Fig. 1 is returned to indicate whole production process, chat herein bright.As shown in figure 3, the first female terminal 20, Two female terminals 30 are to be molded on the first material strip 610 and the second material strip 620 jointly in advance.First female terminal 20 can be saturating The modes for crossing punching press or other bendings are bent into the first contact-segment 21, the first linkage section 23, the first bending segment 25 and the in advance One welding section 27.Similarly, it is curved to be also bent into the second contact-segment 31, the second linkage section 33, second in advance for the second female terminal 30 Trisection 35 and the second welding section 37.To, the first material strip 610 is not connected to each other with the second material strip 620, and the first material strip 610 with And second material strip 620 height it is not identical.Here, the first material strip 610 includes the first material strip ontology 611, a plurality of first material strips Linkage section 613 and a plurality of second material strip linkage sections 615.First material strip linkage section 613 and the second material strip linkage section 615 are by One material strip ontology 611 extends, and is separately connected the first contact-segment 21 and the second contact-segment 31.Further, the first material strip connects It connects section 611 and the second material strip linkage section 615 is to be extended with different bending angles by the first material strip ontology 611, and staggered row Column ground is connect with the first contact-segment 21 and the second contact-segment 31.In addition, the second material strip 620 includes the second material strip ontology 621, plural number A first material strip extended segment 623 and a plurality of second material strips extended segment 625.First material strip extended segment 623 and the second material strip prolong Stretching section 625 is to be extended by the second material strip ontology 621, and be separately connected the first welding section 27 and the second welding section 37.Here, the One material strip extended segment 623 and the first welding section 27, the second material strip extended segment 625 and the second welding section 37 are in substantially vertical curved Dog-ear degree.Only, this is only example, and without being limited thereto.

Then, as shown in figure 4, Fig. 3 will be connected with to the first female terminal of the first material strip 610 and the second material strip 620 20, the second female terminal 30 directly carries out insertion ejection formation.To be in first terminal 20, second end in insulating body 10 Direct injection on son 30, thus, the first connecting portion 23 and the of embedded first female terminal 20 is directly formed in pedestal 11 The second connecting portion 33 and the second bending part 35 of the embedded channel 15 of the first of one bending part 25 and embedded second female terminal 30 The second embedded channel 30.

Finally, along the first material strip linkage section 613 and the second material strip linkage section 615, the first material strip extended segment 623 and Second material strip extended segment 625 is cut, and the first material strip 610 is separated with the second material strip 620 with first terminal 20 with Second terminal 30, Into the electric connector for socket 1 for being Fig. 1.After excision the first material strip 610 of separation and the second material strip 620, in the first contact-segment 21 It is first to cut end 211 that place is separated with the first material strip linkage section 623.First cut end 211 can be embedded in hyoplastron 13 before In side surface 135, that is, because cutting off among groove left by the first material strip linkage section 623 on front side surface 135.Second connects Touching section 31 is second to cut end 311 in place of separating with the second material strip linkage section 625.Second, which cuts end 311, can be embedded in front side On surface 135, that is, because cutting off among groove left by the second material strip linkage section 625 on front side surface 135.But this only shows Example, first cuts end 211, second cuts end and 311 be also possible to trim front side surface 135.

After the completion of cutting separation, when electric connector for socket 1 is installed in electronic device (not shown), only first need Metal shell (not shown) will be set outside Fig. 1 electric connector for socket 1, and by the first welding section 27, the second welding section 37 and electricity The circuit board (not shown) of sub-device welds.

In the first embodiment shown in Fig. 1 to Fig. 4, the first welding section 27 is substantially by the identical direction of the first bending segment 25 Extend, the second welding section 37 is substantially extended by the identical direction of the second bending segment 35.First contact-segment 21 and first weldering The extending direction for connecing section 27 is not parallel, and the second contact-segment 31 is not parallel by the extending direction of the second welding section 37, in pedestal 11 Bottom surface 111, the first welding section 27 and the second welding section 37 are substantially at two column, and the direction of extension is substantially parallel, towards substantially vertical Extend in the direction of bottom surface 111.It further, is in mutual dislocation between the first welding section 27 and the second welding section 37.? This is only example, and without being limited thereto.Here, " substantially parallel " refers to that the first welding section 27 is substantially parallel with the second welding section 37, Or visually be it is parallel, allow be a bit angle error, substantially vertical is also similar connotation.In this way, the first welding section 27 The mode that double-row type encapsulation (Dual in line, DIP) can be adopted with the second welding section 37 carries out welding encapsulation, however, this is only It is example, multiple rows of mode can also be arranged in and encapsulated.

In addition, referring again to Fig. 1 and Fig. 4, when being embedded in ejection formation and completing insulating body 10, the first welding section 27 and the The second of 35 junction of the first Fixed Division 251 and the second welding section 37 and the second bending segment of one bending segment, 25 junction is solid 351 system of socket part is embedded at the bottom surface 111 of pedestal 11.The lower section of pedestal 11 need not be arranged any rear cover structure and insert to fix first Seat terminal 20 and the second female terminal 30.Therefore, in advance the first female terminal 20 of bending, after the second female terminal 30, directly into Row insertion ejection formation, it is even more simple effect that can more reach, which designs structure, meanwhile, it decreases public sequence, simplify processing procedure, And it reduces the production cost and working hour.

Fig. 5 is the perspective view of electric connector for socket second embodiment.As shown in figure 5, second embodiment and first embodiment Difference be the form of the first welding section 27 and the second welding section 37, in a second embodiment, the first welding section 27 is by first Bending segment 25 is once bent again, the second welding section 37 is once bent again by the second bending segment 35, so that first Contact-segment 21 and the extending direction of the first welding section 27 are substantially parallel, and the extension side of the second contact-segment 31 and the second welding section 37 To substantially parallel, and extend along the direction for being parallel to bottom surface 111.In addition, the extending direction of the first welding section 27 and The extending direction of two welding sections 37 is substantially parallel.It is, the first welding section 27 and the second welding section 37 can adopt surface installation Technology (surface mounting technology, SMT) is soldered to circuit board (showing in figure).In addition, the first welding section 27 With the of 35 junction of the first Fixed Division 251 and the second welding section 37 and the second bending segment of 25 junction of the first bending segment Two Fixed Divisions, 351 system is embedded at the bottom surface 111 of pedestal 11.In Fig. 5, the first welding section 27 and the second welding section 37 are in two Column arrangement, but this is only example, not to limit, the first welding section 27 and the second welding section 37 can also be arranged in list Column.

Fig. 6 is the perspective view of electric connector for socket 3rd embodiment.Fig. 7 is the section of electric connector for socket 3rd embodiment Figure.Fig. 8 and Fig. 9 is the manufacturing process intermediate maturity perspective view of electric connector for socket 3rd embodiment.As shown in Figures 6 to 9, Three embodiments are that insulating body 10 is mutually formed in the way of two-piece type with first embodiment, second embodiment difference.Absolutely Edge ontology 10 includes the first insulating body 40 and the second insulating body 50, and the first insulating body 40 and the second insulating body 50 are mutually Group connects.First insulating body 40 includes the first pedestal 41 and the first hyoplastron 43.Second insulating body 50 include the second pedestal 51 and Second hyoplastron 53.It is hyoplastron 13 that 53 groups of first hyoplastron 43 and the second hyoplastron, which connect, and it is base that 51 groups of the first pedestal 41 and the second pedestal, which connect, Seat 11.The mode that first insulating body 40 and the second insulating body 50 can be installed each other is mutually assembled, can also be with its other party Formula group connects, and more can be embedded in ejection formation again after group connects.

As shown in Fig. 7, Fig. 8 and Fig. 9, the insulating body 10 of 3rd embodiment is two-piece type composition, but the first socket end Sub 20, second female terminal 30 is still to be embedded at the first insulation sheet respectively in a manner of bending in advance, be directly embedded into ejection formation Among body 40, the second insulating body 50.As shown in, Fig. 8 and Fig. 9, the first female terminal 20 is fixedly arranged in the first insulating body 40, Second female terminal 30 is fixedly arranged in the second insulating body 50.As shown in fig. 7, the first pedestal 41 is formed with a plurality of first terminals Embedded channel 15, the second pedestal 51 are formed with a plurality of Second terminals and bury channel 17, here, the first linkage section 23 is embedded in the One terminal is buried in first holding channel 151 in channel 15, the first bending segment 25 is embedded in first terminal buries channel 15 the In one bent passage 153.Here, the second linkage section 33 be embedded in Second terminal bury channel 17 the second holding channel 171 in, Second bending segment 25 is embedded in Second terminal and buries in second bent passage 173 in channel 17.

The manufacturing process of the electric connector for socket of 3rd embodiment as can be seen from figures 8 and 9, referring to Fig. 8, the first contact-segment 21 It is before being connected to first on material strip 710, after the tail end of the first welding section 27 is connected to first on material strip 730, here, due to first Contact-segment 21, the first bending segment 25 are bent and are extended by the first linkage section 23, and the first welding section 27 is by the first bending segment 25 other end extends.Material strip 710 is located at different height from material strip 730 after first before first, and is not connected with each other, with Cooperate the bending of the first female terminal 20.Similarly, the second contact-segment 31 be before being connected to second on material strip 750, the second welding After the tail end of section 37 is connected to second on material strip 770, here, since the second contact-segment 31, the second bending segment 35 are connected by second It connects section 33 to bend and extend, the second welding section 37 is extended by the other end of the second bending segment 35.Therefore, material strip before second 750 are located at different height from material strip 770 after second, and are not connected with each other, to cooperate the bending of the second female terminal 30.

Then as shown in figure 9, first female terminal 20 of material strip 730 directly carries out after material strip 710, first before connection first It is embedded in ejection formation, and directly forms the first insulating body 40, so that the first female terminal 20 is directly fastened to the first insulation sheet Body 40, and the first embedded channel 15 is formed in the first pedestal 41 of the first insulating body 40, as shown in Figure 7.First contact-segment 21 a part is exposed to the first hyoplastron 43, and the first welding section 27 is pierced by by the first pedestal 41, and the first welding section 27 and first 251 system of the first Fixed Division that bending segment 25 joins is embedded at the first pedestal 41.Similarly, before connection second after material strip 750, second Second female terminal 30 of material strip 770 directly carries out insertion ejection formation, and directly forms the second insulating body 50, so that second Female terminal 30 is directly fastened to the second insulating body 50, and the second embedded channel 17 is formed in the second insulating body 50.The A part of two contact-segments 31 is exposed to the second hyoplastron 53, and the second welding section 37 is pierced by by the second pedestal 51, and the second welding section 37 and second bending segment 35 join 351 system of the second Fixed Division be embedded at the second pedestal 51.

In more detail, referring again to Fig. 8 and Fig. 9, material strip 710 includes material strip ontology 711 and plural number before first before first Material strip linkage section 713 before a first.Material strip linkage section 713 is extended by material strip ontology 711 before first before first, is expected before each first Band connection section 713 is separately connected the first contact-segment 21.Material strip 730 includes material strip ontology 731 and a plurality of after first after first Material strip linkage section 733 after first, material strip linkage section 733 is extended by material strip ontology 731 after first after first.First welding section 27 Material strip ontology 731 after first being connected to through material strip linkage section 733 after first, or material strip ontology after being directly connected to first 731.Material strip 750 includes material strip linkage section 753 before material strip ontology 751 and a plurality of second before second before second.Expect before second Band connection section 753 is extended by material strip ontology 751 before second.Material strip linkage section 753 is separately connected the second contact-segment before each second 31.Material strip 770 includes material strip linkage section 773 after material strip ontology 771 and a plurality of second after second, material strip after second after second Linkage section 773 is extended by material strip ontology 771 after second.Material strip linkage section 773 connects after second welding section 37 penetrates second respectively Material strip ontology 771 after being connected to second.

Referring again to Fig. 6, Fig. 7 and Fig. 9, after completing to be embedded in ejection formation, by material strip after material strip 710, first before first 730, material strip 770 is cut off after material strip 750 and second before second, and by the first insulating body 40 and the second insulating body 50 It is mutually assembled, the electric connector for socket 1 of Fig. 6 can be completed.When cutting, material strip linkage section before the first contact-segment 21 and first 713 separation, first connect welding 27 separated with material strip linkage section 733 after first, material strip linkage section before the second contact-segment 31 and second 753 separation, second connect welding 37 and separate with material strip linkage section 773 after second.Material strip linkage section before first contact-segment 21 and first It is first to cut end 211 at 713 separation.First cuts the first front side surface 435 separation that end 211 can be located at the first hyoplastron 43 Before first contact-segment 21 and first among groove left by material strip linkage section 713.Material strip connects before second contact-segment 31 and second Connect at 753 separation of section is second to cut end 311.Second, which cuts end 311, to be separated with the second front side surface 535 of the second hyoplastron 53 Material strip linkage section 753 is left among groove before second contact-segment 21 and second.Second cuts end 311 in the first insulating body 40 and second insulating body 50 assemble after it is shielded be only example herein and without being limited thereto, first cuts end 211, second cuts end 311 can also trim with the first front side surface 435, the second front side surface 535 respectively.In addition, the first welding section 27 and first curved 251 system of the first Fixed Division that trisection 25 connects be embedded at the first lower surface 411 of first substrate 41 and the second welding section 37 with 351 system of the second Fixed Division that second bending segment 35 connects is embedded at the second lower surface 511 of the second substrate 51.

In Fig. 6 into 3rd embodiment shown in Fig. 9, the first welding section 27 is by the first bending segment 25, and bending is prolonged again It stretches out, keeps the first contact-segment 21 and the extending direction of the first welding section 25 substantially parallel, the first welding section 27 is towards being roughly parallel to Extend in the direction of first lower surface 411.Second welding section 37 is then extended by the identical direction of the second bending segment 35, thus the Two contact-segments 31 and the extending direction of the second welding section 37 are not parallel, and the second welding section 37 is towards being approximately perpendicular to the second lower surface 511 direction is extended, and the extending direction of the first welding section 27 and the extending direction of the second welding section 37 are not parallel.First insulation After ontology 40 and the assembling of the second insulating body 50, the first lower surface 411 and the second lower surface 511 be substantially in it is coplanar, here, " Substantially in coplanar " indicate that the first lower surface 411 and the second lower surface 511 can also have completely in same level Assembling drop slightly, but entirety can be depending on being same level.To which the first welding section 25 can adopt double-row type encapsulation (DIP) Mode and circuit board (not shown) weld, and the second welding section 37 can surface mounting technique (surface mounting Technology, SMT) it is soldered to circuit board (showing in figure).To which insulating body 10 is assembled with two-piece type, can provide more The assembling mode of member.However, this is only example, without to limit.

Figure 10 is the perspective view of electric connector for socket fourth embodiment.As shown in Figure 10, fourth embodiment and third are implemented Example does not exist together, and is that its second welding section 37 is similarly to be bent to extend again by the second bending part 35, thus the second contact Section is 31 substantially parallel with the extending direction of the second welding section 37, and the second welding section 37 is towards being roughly parallel to the second lower surface 511 Extend in direction.First contact-segment 21 and the extending direction of the first welding section 27 are substantially parallel, and the first welding section 27 is towards substantially flat Row extends in the direction of the first lower surface 411.The extending direction of first welding section 27 and the extension side of second welding section 37 To substantially parallel.It is, the first welding section 27 and the second welding section 37 can surface mounting technique (surface Mounting technology, SMT) it is soldered to circuit board (showing in figure).Here, the first welding section 27 and the first bending segment 25 251 systems of the first Fixed Division connected are embedded at the first lower surface 411 of first substrate 41 and the second welding section 37 and second 351 system of the second Fixed Division that bending segment 35 connects is embedded at the second lower surface 511 of the second substrate 51.First insulating body 40 After the assembling of the second insulating body 50, the first lower surface 411 is with the second lower surface 511 substantially in coplanar.However, this only shows Example, and it is without being limited thereto.

Figure 11 is the perspective view of the 5th embodiment of electric connector for socket.As shown in figure 11, the 5th embodiment and third are implemented Example does not exist together, and is that the first welding section 37 is directly extended by the first bending segment 35, so that the first contact-segment 21 and the first weldering The extending direction for connecing section 25 is not parallel.First welding section 37 extends towards the direction for being approximately perpendicular to the first lower surface 411.Second Contact-segment 31 and the extending direction of the second welding section 37 are not parallel greatly, and the second welding section 37 is towards being approximately perpendicular to the second lower surface Extend in 511 direction.The extending direction of the extending direction and second welding section 37 of first welding section 27 is substantially parallel.Also It is that after the first insulating body 40 and the installation of the second insulating body 50, the first welding section 27 can adopt double-row type encapsulation (DIP) side Formula welding encapsulation, and the second welding section 37 can adopt rectilinear encapsulation and be connected to circuit board (showing in figure), in other words, the first weldering It connects section 27 and whole welded with multiple rows of vertical mode of the second welding section 37 encapsulates, however, this is only example and without being limited thereto.? This, 251 system of the first Fixed Division that the first welding section 27 and the first bending segment 25 connect is embedded under the first of first substrate 41 351 system of the second Fixed Division that surface 411 and the second welding section 37 and the second bending segment 35 connect is embedded at the second substrate 51 After second lower surface 511, the first insulating body 40 and the assembling of the second insulating body 50, the first lower surface 411 and the second lower surface 511 substantially in coplanar.However, above embodiment is only example, rather than to limit.

In conclusion electric connector for socket 1 be through in advance by the first female terminal 20, the second female terminal 30 in advance prior to After the enterprising shape bending of material strip, insulating body 10 is directly embedded into ejection formation again, in this way, the plug structure after structure there is no palpus It fixes the first female terminal 20, the second female terminal 30, also can avoid the first female terminal by ejection formation is directly embedded into 20, the deformation or dislocation of the second female terminal 30 also can be reduced the upper modelling of production, bending terminal, fixing terminal insertion rear plug knot The processes such as structure can be reduced working hour, lower cost of manufacture and design cost.

Through above-mentioned detailed description, can sufficiently show all had in the purpose and efficacy of the utility model implementation into Step property, the usability value of great industry, complies fully with patent requirement, and whence is filed an application in accordance with the law.Only the above is only this reality With novel preferred embodiment, when the range that cannot implement to limit the utility model.It is i.e. all according to the utility model The equivalent changes and modifications that the scope of the patents is made, all should belong in the range that the utility model patent covers, and sincerely ask your examination committee Member's explicit example for reference, and prays Hui Zhun, is to praying.

Claims (11)

1. a kind of electric connector for socket, it is characterised in that:

A plurality of first female terminals, each first female terminal include one first contact-segment, one first linkage section, one first Bending segment and one first welding section, first contact-segment and first bending segment are respectively by the two of first linkage section End extends, the other end of first welding section by first bending segment relative to first linkage section extends；

A plurality of second female terminals, each second female terminal include one second contact-segment, one second linkage section, one second Bending segment and one second welding section, second contact-segment and second bending segment are respectively by the two of second linkage section End extends, the other end of second welding section by second bending segment relative to second linkage section extends；

One insulating body, including to each first female terminal and each second female terminal ejection formation a pedestal and One includes a first surface, a second surface and a front side surface by one of described pedestal one end extension hyoplastron, the hyoplastron, Described in the first contact-segment be locally coated on the first surface, and the first contact-segment Partial exposure is in the institute of the hyoplastron First surface, the second surface are stated relative to the first surface, second contact-segment is locally coated on second table Face, and the second contact-segment Partial exposure connects described first in the second surface, the front side surface of the hyoplastron Surface and the second surface, the another pedestal then form a plurality of first terminals and bury channel and a plurality of Second terminals Embedded channel, wherein each first terminal bury channel define for one of embedded first holding channel of first linkage section and It is connected with first holding channel and for one of embedded first bent passage of first bending segment, and first welding Section protrudes from the pedestal, holds wherein each Second terminal is buried channel and defined for second linkage section one of embedded second It sets channel and is connected with second holding channel and for one of embedded second bent passage of second bending segment, and it is described Second welding section protrudes from the pedestal.

2. electric connector for socket as described in claim 1, it is characterised in that: each first contact-segment is cut comprising one first End, described first cuts the front side surface that end is embedded in the hyoplastron, and each second contact-segment is cut comprising one second End, described second cuts the front side surface that end is embedded in the hyoplastron.

3. electric connector for socket as claimed in claim 2, it is characterised in that: first contact-segment and first welding section Extending direction it is substantially parallel, and second contact-segment and the extending direction of second welding section are substantially parallel, described The extending direction of one welding section and the extending direction of second welding section are substantially parallel, and each first welding section and each institute State the handover of the first bending segment one first Fixed Division and each second welding section and the handover of each second bending segment one the Two Fixed Division systems are embedded at the same surface of the pedestal.

4. electric connector for socket as claimed in claim 2, it is characterised in that: first contact-segment and first welding section Extending direction it is not parallel, second contact-segment is not parallel by the extending direction of second welding section, it is described first welding The extending direction of the extending direction and second welding section of section is substantially parallel, each first welding section and each described first curved One second Fixed Division of one first Fixed Division of trisection handover and each second welding section and each second bending segment handover System is embedded at the same surface of the pedestal.

5. the electric connector for socket as described in any one of claim 3 or 4, it is characterised in that: described first cuts end and institute Stating second and cutting end is to be pre-attached on one first material strip, the tail of the tail end of first welding section and second welding section End system is pre-attached on one second material strip, wherein first material strip is located at different height from second material strip system.

6. electric connector for socket as claimed in claim 2, it is characterised in that: the insulating body includes one first insulating body And one second insulating body, first insulating body and second insulating body are mutually assembled, first insulating body Comprising one first hyoplastron and one first pedestal, first pedestal forms the equal first terminals and buries channel, and each described first Female terminal is fixedly arranged on first insulating body, and a part of first contact-segment is exposed to first hyoplastron, described First linkage section is embedded in first holding channel, and first bending segment is embedded in first bent passage, institute It states the first welding section to be pierced by by first pedestal, first welding section and first bending segment join one first affixed System, portion is embedded at first pedestal, and second insulating body includes one second hyoplastron and one second pedestal, second base Seat is formed with the Second terminals such as described and buries channel, and each second female terminal is fixedly arranged on second insulating body, described A part of second contact-segment is exposed on second hyoplastron, and second linkage section is embedded in second holding channel In, second bending segment is embedded in second bent passage, and second welding section is pierced by by second pedestal, institute One second Fixed Division for stating the second welding section and second bending segment handover is to be embedded at second pedestal, first tongue It is the hyoplastron that plate and the second hyoplastron group, which connect, and it is the pedestal that first pedestal and the second pedestal group, which connect,.

7. electric connector for socket as claimed in claim 6, it is characterised in that: each first welding section and each described first curved First Fixed Division of trisection handover be embedded at the surface of first pedestal and each second welding section with it is each described Second Fixed Division of second bending segment handover is embedded at the surface of second pedestal, in first insulating body and The second insulating body group is substantially in coplanar after connecing.

8. electric connector for socket as claimed in claim 6, it is characterised in that: first contact-segment and first welding section Extending direction it is substantially parallel, and second contact-segment and the extending direction of second welding section are substantially parallel, described The extending direction of one welding section and the extending direction of second welding section are substantially parallel.

9. electric connector for socket as claimed in claim 6, it is characterised in that: first contact-segment and first welding section Extending direction it is substantially parallel, second contact-segment and the extending direction of second welding section are not parallel, it is described first weldering The extending direction for connecing the extending direction and second welding section of section is not parallel.

10. electric connector for socket as claimed in claim 6, it is characterised in that: first contact-segment and first welding The extending direction of section is not parallel, and second contact-segment and the extending direction of second welding section are not parallel, first weldering The extending direction for connecing the extending direction and second welding section of section is substantially parallel.

11. the electric connector for socket as described in any one of claim 8 to 10, it is characterised in that: described first cuts end in advance Before being first connected to one first on material strip, described second cut before end is pre-attached to one second on material strip, first welding section Tail end be pre-attached to one first after on material strip, the tail end of second welding section be pre-attached to one second after on material strip, Expect after material strip and described second before wherein material strip is located at different height, described second from material strip after described first before described first Band is located at different height.