CN203859329U - Electrical connector - Google Patents

Abstract

An electrical connector comprises a first module group, wherein the first module group comprises a first insulating part, and a plurality of first conductive terminals and a grounding metal sheet which are buried in the first insulating part, the first insulating part comprises a lingual plate portion, the lingual plate portion is provided with a first surface and a second surface which are opposite to each other, and a plurality of terminal accommodating grooves are formed in the second surface; a second module group, wherein the second module group is superposed with the first module group, the second module group comprises a second insulating part and a plurality of second conductive terminals buried in the second insulating part, butt joint portions of the second conductive terminals are correspondingly accommodated in the terminal accommodating grooves and exposed to the second surface, and the first insulating part and the second insulating part are combined together to form an insulating body; an inner shielding casing fixed on the insulating body and attached on the rear section of the lingual plate portion in a manner of extending for some length; and an outer shielding casing. The electrical connector can be well suitable for high-speed signal transmission and can be assembled conveniently.

Description

Electric connector

Technical field

The utility model relates to a kind of electric connector, relates in particular to a kind of electric connector that is applicable to high speed transmission of signals and is convenient to assembling.

Background technology

Chinese patent CN201320378153.0 has disclosed a kind of electric connector, it comprises insulating body, be immobilizated in the first end subgroup of insulating body, shielding part and be arranged at the metal shell outside insulating body, described insulating body comprises base portion and the hyoplastron extending forward, described hyoplastron has first surface and the second surface being oppositely arranged, first end subgroup is exposed to described first surface, shielding part is arranged at hyoplastron and between first surface and second surface, described first end subgroup comprises earth terminal, described earth terminal is provided with the contact site that is convexly equipped with and contacts this shielding part towards described shielding part.Existing this connector construction is when for high speed transmission of signals, and the electromagnetic radiation in docking chamber is easily leaked backward and disturbed the afterbody of terminal group to cause string news (crosstalk), is unfavorable for improving signal quality.The insulating body of this connector is to be combined by the first insulator, the second insulator, buttcover plate and assembled frame in addition, and its complex structure is unfavorable for assembling, is therefore necessary to improve in fact.

Utility model content

Technical problem to be solved in the utility model is to overcome the existing deficiency of above-mentioned prior art, and proposes a kind of electric connector, is applicable to high speed transmission of signals and is convenient to assembling.

The utility model proposes a kind of electric connector for above-mentioned technical problem, comprising:

One first module, it comprises one first insulating part and be embedded in a plurality of the first conducting terminals and the grounded metal sheet on this first insulating part, wherein,

This first insulating part comprises a main part and by this main part extended hyoplastron portion forward, this hyoplastron portion has a first surface opposing upper and lower and a second surface, is formed with a plurality of terminal containing slots on this second surface;

Each first conducting terminal comprises a docking part and a weld part, and the docking section of these the first conducting terminals exposes to this first surface;

This grounded metal sheet comprises a plate body, and this plate body is embedded in this hyoplastron portion;

One second module, itself and this first module stacks together, this second module comprises one second insulating part and is embedded in a plurality of the second conducting terminals on this second insulating part, each second conducting terminal comprises a docking part and a weld part, the docking section correspondence of these the second conducting terminals is housed in these terminal containing slots and exposes to this second surface, wherein this first insulating part and this second insulating part combine and jointly form an insulating body, spaced apart the first conducting terminal of plate body and second conducting terminal of this grounded metal sheet;

One inner shield housing, it is fixed on this insulating body, and the back segment that this inner shield housing at least amplexiforms in this hyoplastron portion is extended with a segment distance; And

One external shield housing, it surrounds this insulating body and this inner shield housing and docks chamber in the peripheral space formation one of this hyoplastron portion.

In certain embodiments, be formed with a receiving space on the main part of this first insulating part, this first insulating part is respectively equipped with one first installation portion in two relative inner of this receiving space; This second insulating part comprises two second installation portions in a base portion and the two relative outsides that are arranged on this base portion; Wherein, these two second installation portions and these two the first installation portion corresponding matching, thus this second insulating part is planted and is fixed in the receiving space of this first insulating part.

In certain embodiments, this first installation portion is upper end open the vertical conduit extending, and this second installation portion is the protruding rail vertically extending.

In certain embodiments, this first installation portion is open rearward end a horizontally extending conduit, and this second installation portion is a horizontally extending protruding rail.

In certain embodiments, the main part of this first insulating part matches with this second insulating part and jointly forms a body of this insulating body; This inner shield housing comprises the canned paragraph that amplexiforms at the leading portion of this body, amplexiform an extension of the back segment of this hyoplastron portion and be vertically connected to this canned paragraph and this extension between a linkage section, this external shield housing contacts and is electrically connected with the canned paragraph of this inner shield housing.

In certain embodiments, this inner shield housing is to be put together up and down by two metal shell elements.

In certain embodiments, the back segment both sides of this hyoplastron portion are respectively provided with an accepting groove; The extension of each metal shell element comprises two grabs that lay respectively at both sides, thereby the grab on these two metal shell elements cooperatively interacts to be housed in these two accepting grooves, the back segment of this hyoplastron portion is encircled therein.

In certain embodiments, in this docking chamber, be to be 180 degree to be symmetrical arranged, the docking section of the docking section of these the first conducting terminals and these the second conducting terminals is to be also 180 degree to be symmetrical arranged in this docking chamber.

In certain embodiments, the both sides of this hyoplastron portion are respectively formed with a clasp groove caving inward, and this grounded metal sheet is partly to expose to this two clasp grooves.

In certain embodiments, this grounded metal sheet also comprises by the extended at least one grounding leg of this plate body.

Compared with prior art, electric connector of the present utility model is by being arranged on conducting terminal and grounded metal sheet dexterously in two stacked modules, and by inner shield housing, match with external shield housing, can be applicable to preferably high speed transmission of signals and be convenient to assembling.

Accompanying drawing explanation

Fig. 1 is preferred embodiment of the utility model electric connector and the view of a butt connector.

Fig. 2 is the three-dimensional view of electric connector shown in Fig. 1.

Fig. 3 is the front view of electric connector shown in Fig. 1.

Fig. 4 be in Fig. 3 Z-Z to cutaway view.

Fig. 5 be in Fig. 3 F-F to cutaway view.

Fig. 6 be in Fig. 3 A-A to cutaway view.

Fig. 7 is by the decomposition view of the external shield housing separation in Fig. 2.

Fig. 8 is the view at another visual angle of Fig. 7.

Fig. 9 is by the decomposition view of the inner shield housing separation in Fig. 7.

Figure 10 be by the first module in Fig. 9 and the second mould splits from decomposition view.

Figure 11 is the view at another visual angle of Figure 10.

Figure 12 is by the conducting terminal in Figure 10 and the further separated view of grounded metal sheet.

Figure 13 be the utility model electric connector another preferred embodiment by the decomposition view of external shield housing separation.

Figure 14 is by the decomposition view of the inner shield housing separation in Figure 13.

Figure 15 is by the further separated decomposition view of the first module in Figure 14 and the second module.

Figure 16 is the view at another visual angle of Figure 15.

Embodiment

Although the utility model can easily show as multi-form embodiment, but shown in the drawings and by what describe in detail, be only some of them specific embodiments in this manual, be understandable that it is the exemplary illustrated of the utility model principle that this specification should be considered as simultaneously, and be not intended to the utility model to be restricted at this illustrated.

Thus, in this specification, a pointed feature by for one of them feature of an embodiment of the present utility model is described, rather than implies that each embodiment of the present utility model must have illustrated feature.In addition, should be noted that this specification described many features.Although some feature can combine to illustrate possible system, these features also can be used for other the combination not clearly stating.Thus, except as otherwise noted, illustrated combination is not intended to restriction.

In the embodiment shown in the figures, the indication of direction (such as upper and lower, left and right, front and rear) is for explaining that the structure of various elements of the present utility model is not absolute but relative with motion.When these elements are during in position shown in the drawings, these explanations are suitable.When if the explanation of the position of these elements changes, the indication of these directions also correspondingly changes.

This electric connector 10 is preferably an electric-connected socket of supporting high speed data transfer, and this butt connector 20 is preferably an Electric plug with shutter of supporting high speed data transfer.

Referring to Fig. 2 to Fig. 6, this electric connector 10 roughly comprises: an insulating body 1, a plurality of conducting terminal 2, an external shield housing 3, an inner shield housing 4 and a grounded metal sheet 5.In conjunction with referring to Fig. 7 to Figure 12, this insulating body 1, these conducting terminals 2 and metal earthing sheet 5 are to be combined into a combined body 6.This inner shield housing 4 is fixed in this combined body 6.This external shield housing 3 is set in the outside of this combined body 6 and inner shield housing 4, and encirclement formation is the symmetrically arranged docking chamber 109 of 180 degree.Wherein, this external shield housing 3 has a plurality of grounding legs 35, and these grounding legs 35 can corresponding be welded on the ground path in a circuit board (not shown).

Referring to Fig. 1, this butt connector 20 roughly comprises: an insulating body 201, be fixed on a plurality of conducting terminals 202 on this insulating body 201, be installed in a shield shell 203 and a plurality of grounding elastic part 204 of these insulating body 201 peripheries.This butt connector 20 has a docking chamber 209.When this butt connector 20 is inserted in the docking chamber 109 of this electric connector 10, together with conducting terminal 202 will be electrically connected to corresponding conducting terminal 2, this inner shield housing 4 can contact with grounding elastic part 204 and form the first earth shield structure, thereby prevents that electromagnetic radiation from passing insulating body 1 and revealing backward interference conducting terminal 2.And external shield housing 3 forms the second earth shield structure with shield shell 203, thereby can effectively reach the shielding construction that an integral body is surrounded.

Referring to Fig. 7 to Figure 12, this insulating body 1 is preferably and is combined by one first mutually stacked insulating part 11 and one second insulating part 12.This first insulating part 11 is integrated injection moldings, and it mainly comprises a main part 15 and by this main part 15 extended hyoplastron portion 16 forward.

Referring to Figure 12, this main part 15 roughly comprises a base portion 151, is positioned at two two holddown grooves 154 that extend sidepiece 152 and be arranged at base portion 151 bottoms that these base portion 151 both sides extend back.On this main part 11, be formed with a receiving space 153.Can be understood as this receiving space 153 is cooperatively interacted and is enclosed out by this base portion 151 and two extension sidepieces 152.In conjunction with referring to Figure 10, one side of receiving space 153 (namely towards) is respectively provided with one first installation portion 1521 in two inner sides to extend sidepiece 152.Particularly, this first installation portion 1521 is vertically to extend to be arranged with at the conduit extending on sidepiece 152, and this conduit has opening in the upper end of extending sidepiece 152.On two extension sidepieces 152, be respectively formed with the reference column 1523 stretching out downwards.Extend sidepiece 152 and in outside, be concaved with a draw-in groove 1525.Extend sidepiece 152 and in end face rear end, be formed with a upwards guide vane end stop 1526 of projection.

Referring to Figure 10 and Figure 11, this hyoplastron portion 16 has first surface 168 opposing upper and lower and second surface 169 and is connected to a front surface 1671 and the both side surface 1672 between these two surfaces 168,169.On the second surface of this hyoplastron portion 16 (uper side surface) 169, be formed with a plurality of terminal containing slots 162.This hyoplastron portion 16 can be divided into a back segment 165 and a leading portion 166.The gauge of this back segment 165 is larger than the gauge of leading portion 166.This structure can make hyoplastron portion 16 have good intensity in order to avoid the butt connector 20 being docked damages.The both sides of the leading portion 165 of this hyoplastron portion 16 are also respectively formed with a clasp groove 163 caving inward.The both sides of the back segment 165 of this hyoplastron portion 16 are also respectively formed with an accepting groove 164.

Referring to Figure 11 and Figure 12, this second insulating part 12 is integrated injection moldings, its roughly comprise be cuboid a base portion 121, be separately positioned on this base portion 121 two relatively outside two the second installation portions 122 that vertically extend, be arranged on two two holddown grooves 124 of dodging groove 123 and being arranged on the top, front side of this base portion 121 of the bottom side of this base portion 121.Referring to Fig. 9, two the first installation portion 1521 corresponding matching on these two the second installation portions 122 and this first insulating part 11, can insert in the receiving space 153 that is fixed on this first insulating part 11 this second insulating part 12 from top to bottom.Referring to Fig. 4 to Fig. 8, be understandable that, the main part 15 of this second insulating part 12 and this first insulating part 11 has formed a body 14 of this insulating body 1 jointly.The profile of this body 14 is comparatively roomy.

Referring to Figure 10 to Figure 12, these conducting terminals 2 are to adopt metal material integrated punching bending forming.These conducting terminals 2 are divided into one group of first conducting terminal 21 and one group of second conducting terminal 22.Each first conducting terminal 21 comprises a docking part 211, a weld part 212 and is connected in a junction 213 between this docking section 211 and weld part 212, and wherein docking section 211 correspondences expose to the first surface 168 of this hyoplastron portion 16.Each second conducting terminal 22 comprises a docking part 221, a weld part 222 and is connected in a junction 223 between this docking section 221 and weld part 222, and wherein docking section 221 correspondences are housed in terminal containing slot 162 and expose to the second surface 169 of this hyoplastron portion 16.In conjunction with Fig. 1 to Fig. 6, the docking section 211 of these the first conducting terminals 21 is 180 degree with the docking section 221 of these the second conducting terminals 22 and is symmetrical arranged in docking chamber 109, thereby makes butt connector 20 along being inserted into forward or backwards the object that can reach correct docking in this electric connector 10.

Referring to Fig. 8 and Fig. 9, this external shield housing 3 comprises a roof 31, two side 32 and a diapire 33.Wherein, on roof 31, be preferably and be concaved with a plurality of junction surfaces 311 downwards.Also goodly on diapire 33 be upwards concaved with a plurality of junction surfaces 331.A front grounding leg 35 is extended at each sidewall 32 middle part downwards.Grounding leg 35 after each sidewall 32 rear portion is extended one downwards.On each sidewall 32, be also formed with a buckling piece 36.When this external shield housing 3 overlaps when being set to this insulating body 1 and getting on from front to back, the rear end of sidewall 32 is by the guide vane end stop 1526 being resisted against on this insulating body 1, this buckling piece 36 snaps in correspondence in the fixing slot 1525 on this insulating body 1, thereby this external shield housing 3 is fixed on this insulating body 1.

Referring to Fig. 4 to Fig. 9, this inner shield housing 4 is fixed on the body 14 of this insulating body 1 and is extended with a segment distance towards the direction of hyoplastron portion 16.That is to say, this inner shield housing 4 is fixed on the leading portion periphery of this body 14 and is extended with a segment distance at the back segment 165 of this hyoplastron portion 16.Particularly, this inner shield housing 4 comprises the canned paragraph 45 that amplexiforms at the leading portion of this body 14, amplexiforms in an extension 46 of the back segment 165 of this hyoplastron portion 16 and be vertically connected to the linkage section 47 between this canned paragraph 45 and extension 46.This inner shield housing 4 can contact and ground connection with this external shield housing 3 by this canned paragraph 45.

This inner shield housing 4 is specifically put together up and down by two metal shell elements 41.Each metal shell element 41 comprises: amplexiform a canned paragraph 411 at the leading portion of this body 14, amplexiform an extension 412 of the back segment 165 of this hyoplastron portion 16 and be vertically connected to canned paragraph 411 and extension 412 between a linkage section 413.Particularly, this canned paragraph 411 comprises a horizontal-extending plate 417 and by its trailing edge extended two fixing tabs 415 vertically, wherein this fixedly tab 415 is better has a barb.This extension 412 comprises a horizontal-extending plate 418 and by its both sides extended two grabs 414,416 vertically, wherein the bayonet socket 4141 of grab 414 and grab 416 bayonet socket 4161 opposite directions.This linkage section 413 is a vertical extension board.Referring to Fig. 9, the upper metal shell element 41 that is positioned at top is holddown grooves 124 that correspondence is fixed on the second insulating part 12.Referring to Figure 11, the metal shell element 41 that is positioned at below is holddown grooves 154 that correspondence is fixed on the first insulating part 11.Mutual hook by grab coordinates, and can make these two metal shell elements 41 mutually lock to together.Particularly, these grabs are to be fastened in the accepting groove 164 of this insulating body 1, thereby the back segment of hyoplastron portion 16 165 can be encircled therein.

Be understandable that, specific to the present embodiment, the canned paragraph 411 by two metal shell elements 41 is formed aforesaid canned paragraph 45; Aforesaid extension 46 is comprised of the extension 412 on two metal shell elements 41; Aforesaid linkage section 47 is comprised of the linkage section 413 on two metal shell elements 41.This inner shield housing 4 can be bonded together by the junction surface 311,331 of the mode of laser welding or the mode of Elastic Contact and external shield housing 3.

Referring to Figure 10 to Figure 12, this grounded metal sheet 5 is integrated punching bending formings.It comprises a plate body 51 and two grounding legs 52 that extended back by the trailing edge of this plate body 51.Wherein, this plate body 51 is fixed in this hyoplastron portion 16 and spaced apart the first conducting terminal 21 and the second conducting terminal 22.The front-end edge of this plate body 51 exposes to the front surface 1671 of this hyoplastron portion 16.The both side edges of this plate body 51 exposes to two side surfaces 1672 of this hyoplastron portion 16.It is worth mentioning that, the both side edges of this plate body 51 exposes to this clasp groove 163, thereby can contact ground connection is provided with the grounding elastic part (scheming not shown) of 209 sides, docking chamber of butt connector 20.These two grounding legs 52 can be piercing in this insulating body 1 backward by means of the groove 123 of dodging on the second insulator 12.These two grounding legs 52 can correspondence be welded on circuit board to be grounded.In addition, on this plate body 51, be formed with a plurality of through holes 58.Preferably, these through holes 58 are circular.These through holes 58 are along arranging axisymmetrically in the extension of front and back.This grounded metal sheet 5 both can strengthen the intensity of hyoplastron portion 16, can also reduce the high-frequency crosstalk of conducting terminal 2, thereby reached the object that improves electrical property.

Referring to Figure 10 to Figure 12, this grounded metal sheet 5 is combined into one first module 7 with these first conducting terminals 21 and the first insulating part 11.Specifically adopt and insert the manufacturing process of moulding (insert mold) at Overmolded this first insulating part 11 of periphery injection moulding of the first conducting terminal 21 and grounded metal sheet 5.The second insulating part 12 is combined into one second module 8 with these second conducting terminals 22.Specifically adopt the manufacturing process of inserting moulding at Overmolded this second insulating part 12 of the second conducting terminal 22 peripheries.This second module 8 is to be stacked in from top to bottom on this first module 7, the corresponding insertion in docking section 221 of this second conducting terminal 22 is housed in the terminal containing slot 162 of this hyoplastron portion 16, and can makes this second insulating part 12 and the first insulating part 11 be combined into aforesaid insulating body 1.

The assembling process of electric connector of the present utility model roughly comprises: punching press bending forming conducting terminal 2, external shield housing 3, two metal shell elements 41 and grounded metal sheet 5; Then, thereby manufacturing process that adopt to insert moulding obtains the first module 7 at the first conducting terminal 21 and Overmolded the first insulating part 11 of grounded metal sheet 5 periphery one, thereby and at Overmolded the second insulating part 12 of the second conducting terminal 22 periphery one, obtain the second module 8; Then, the second module 8 is planted in the receiving space 153 of the first module 7 from top to bottom, obtained this combined body 6; Then two metal shell element 41 correspondences are attached in combined body 6; Finally, external shield housing 4 is nested in combined body 6 from front to back.

Compared with prior art, electric connector 10 of the present utility model is by being arranged on conducting terminal 2 and grounded metal sheet 5 dexterously in two stacked modules 7,8, and match with external shield housing 3 by inner shield housing 4, can strengthen preferably shielding and be applicable to high speed transmission of signals, and be easy to manufacture assembling.

Referring to Figure 13 to Figure 16, another preferred embodiment for electric connector of the present utility model, it is mainly reflected in from the difference of aforementioned preferred embodiments: the stacked fit structure of the first module 7a and the second module 8a is different, particularly, the first installation portion 1521a of the first module 7a is preferably opening at the rear side that extends sidepiece 152a, and along the horizontally extending conduit of fore-and-aft direction; The second installation portion 122a of the second module 8a is preferably along the horizontally extending protruding rail of fore-and-aft direction, and the second module 8a plants in the receiving space 153a of the first module 7a from back to front.

Foregoing is only preferred embodiment of the present utility model; not for limiting embodiment of the present utility model; those of ordinary skills are according to main design of the present utility model and spirit; protection range of the present utility model can carry out very easily corresponding flexible or modification, therefore should be as the criterion with the desired protection range of claims.

Claims (10)

1. an electric connector, is characterized in that, comprising:

One first module, it comprises one first insulating part and be embedded in a plurality of the first conducting terminals and the grounded metal sheet on this first insulating part, wherein,

This first insulating part comprises a main part and by this main part extended hyoplastron portion forward, this hyoplastron portion has a first surface opposing upper and lower and a second surface, is formed with a plurality of terminal containing slots on this second surface;

Each first conducting terminal comprises a docking part and a weld part, and the docking section of these the first conducting terminals exposes to this first surface;

This grounded metal sheet comprises a plate body, and this plate body is embedded in this hyoplastron portion;

One second module, itself and this first module stacks together, this second module comprises one second insulating part and is embedded in a plurality of the second conducting terminals on this second insulating part, each second conducting terminal comprises a docking part and a weld part, the docking section correspondence of these the second conducting terminals is housed in these terminal containing slots and exposes to this second surface, wherein this first insulating part and this second insulating part combine and jointly form an insulating body, spaced apart the first conducting terminal of plate body and second conducting terminal of this grounded metal sheet;

One inner shield housing, it is fixed on this insulating body, and the back segment that this inner shield housing at least amplexiforms in this hyoplastron portion is extended with a segment distance; And

One external shield housing, it surrounds this insulating body and this inner shield housing and docks chamber in the peripheral space formation one of this hyoplastron portion.

2. according to electric connector claimed in claim 1, it is characterized in that, on the main part of this first insulating part, be formed with a receiving space, this first insulating part is respectively equipped with one first installation portion in two relative inner of this receiving space; This second insulating part comprises two second installation portions in a base portion and the two relative outsides that are arranged on this base portion; Wherein, these two second installation portions and these two the first installation portion corresponding matching, thus this second insulating part is planted and is fixed in the receiving space of this first insulating part.

3. according to electric connector claimed in claim 2, it is characterized in that, this first installation portion is upper end open the vertical conduit extending, and this second installation portion is the protruding rail vertically extending.

4. according to electric connector claimed in claim 2, it is characterized in that, this first installation portion is open rearward end a horizontally extending conduit, and this second installation portion is a horizontally extending protruding rail.

5. according to electric connector claimed in claim 1, it is characterized in that, the main part of this first insulating part matches with this second insulating part and jointly forms a body of this insulating body; This inner shield housing comprises the canned paragraph that amplexiforms at the leading portion of this body, amplexiform an extension of the back segment of this hyoplastron portion and be vertically connected to this canned paragraph and this extension between a linkage section, this external shield housing contacts and is electrically connected with the canned paragraph of this inner shield housing.

6. according to electric connector claimed in claim 5, it is characterized in that, this inner shield housing is to be put together up and down by two metal shell elements.

7. according to electric connector claimed in claim 6, it is characterized in that, the back segment both sides of this hyoplastron portion are respectively provided with an accepting groove; The extension of each metal shell element comprises two grabs that lay respectively at both sides, thereby the grab on these two metal shell elements cooperatively interacts to be housed in these two accepting grooves, the back segment of this hyoplastron portion is encircled therein.

8. according to electric connector claimed in claim 1, it is characterized in that, is to be 180 degree to be symmetrical arranged in this docking chamber, and the docking section of the docking section of these the first conducting terminals and these the second conducting terminals is to be also 180 degree to be symmetrical arranged in this docking chamber.

9. according to electric connector claimed in claim 1, it is characterized in that, the both sides of this hyoplastron portion are respectively formed with a clasp groove caving inward, and this grounded metal sheet is partly to expose to this two clasp grooves.

10. according to the arbitrary described electric connector of claim 1 to 9, it is characterized in that, this grounded metal sheet also comprises by the extended at least one grounding leg of this plate body.