CN205944625U - Heavy current USB type C type socket - Google Patents

Abstract

The utility model provides a heavy current USB type C type socket, including be equipped with the main part the metal medium plate, be located respectively about the metal medium plate both sides and symmetry first terminal group, second terminal group, general first, second terminal group and the shaping of metal medium plate is in the insulator of an organic whole, first, second terminal group respectively including two the 1st ground terminal lieing in the outside and two the 2nd ground terminal, lie in a plurality of the first signal terminals and two first power supply terminals between two the 1st ground terminal and lie in a plurality of the 2nd signal terminal and two second source terminals between two the 2nd ground terminal, thickness first, the second source terminal is greater than first, the 2nd signal terminal's thickness, the main part of metal medium plate is corresponding position department first, the second source terminal has seted up strip shaped hole, the utility model provides a heavy current USB type C type socket can effectively support big electricity charging.

Description

High current USB Type c-type socket

Technical field

The application is related to a kind of output type electric connector that comes in and goes out, espespecially a kind of high current USB Type c-type socket.

Background technology

USB3.1 Type c-type interface is a kind of new interface standard that USB-IF association released in 2014, this standard Take into account size and performance simultaneously, adapted to the application on intelligent terminal, but it can not be backward compatible.It generally comprises in metal Plate, two groups of conducting terminals of the upper and lower both sides of described metal medium plate that are placed in and described metal medium plate and conducting terminal are held be The insulant of one.Described metal medium plate is used for shielding the High-frequency Interference of upper and lower two groups of conducting terminals, is limited to the restriction of size, Described two groups of conducting terminals and the distance between described metal medium plate very little, in terminal thickness in the case of 0.12mm, terminal Distance with metal medium plate is 0.17mm.

Include electric with positioned at middle a pair positioned at outermost a pair of ground terminal in upper and lower two groups of conducting terminals respectively Source terminal, now it is desirable to described ground terminal and power supply terminal allow to pass through larger current in the case of realizing quick charge, But it is easily caused after thickening described power supply terminal and the short circuit of described metal medium plate, and widen described power supply terminal and be then limited to hold Son between less spacing it is difficult to effectively realize high current by property.

Utility model content

The purpose of the application is to provide a kind of permission high current to pass through to support the high current USB Type of quick charge C-type socket.

For this reason, this application provides a kind of high current USB Type c-type socket, including be provided with main part metal medium plate, Be located at respectively the upper and lower both sides of described metal medium plate and symmetrical first end subgroup, Second terminal group, by described first, second terminal Group and described metal medium plate take shape in the insulating body of one, and described first, second terminal group is included respectively positioned at outermost Two the first ground terminals and two the second ground terminals, some first signals between described two first ground terminals Terminal and two the first power supply terminals and some secondary signal terminals between described two second ground terminals and two Second source terminal, the thickness of described first, second power supply terminal is more than the thickness of described first, second signal terminal, described The main part of metal medium plate offers strip hole at the position of corresponding described first, second power supply terminal.

Preferably, described main part is slit into intermediate body portions and two both sides main parts by described strip hole, described in Between main part connected as one by rear connecting portion with described two both sides main part, described first power supply terminal is in the rear Extend after bending upwards at the connecting portion of end.

Preferably, there are front end connecting portion and rear connecting portion in the rear and front end in described strip hole respectively by described metal medium plate It is connected as a single entity, the upper surface of described rear connecting portion is formed with depressed part, described first, second power supply terminal corresponds to described front end Formation is thinned fluted at connecting portion.

Preferably, described main part is slit into separate intermediate body portions and two both sides main bodys by described strip hole Portion, described intermediate body portions and two both sides main parts have independent connections on a front material strip of described metal medium plate respectively.

Preferably, described first power supply terminal, the first ground terminal and the first signal terminal are away from described metal medium plate The surface of side is in same level, and described second source terminal, the second ground terminal, secondary signal terminal are away from described One side surface of metal medium plate is in same level.

Preferably, the thickness of described first, second power supply terminal is 0.18 ~ 0.26mm, described first, second signal terminal Thickness be 0.11 ~ 0.13mm.

Preferably, the thickness of described first, second power supply terminal is 0.24 ~ 0.26mm.

Preferably, the thickness of described first, second ground terminal is equal with the thickness of described first, second power supply terminal.

Preferably, the front end of described metal medium plate is run through in described strip hole in the plugging direction, and described metal medium plate also wraps Include and extend the weld part being formed, some perforates being opened on described main part from described main part rear end and be formed at described Main part lateral outer side with buckle and contacts the clamping part of butt connector.

Preferably, described insulating body includes for described first end subgroup and described metal medium plate being shaped to the first assembly The first insulator, by described Second terminal composing type be the second assembly the second insulator and by described first assembly It is shaped to the 3rd insulator of the 3rd assembly with described second assembly, described high current USB Type c-type socket also includes It is sheathed on the external metal shell of described 3rd insulation.

Compared to prior art, the high current USB Type c-type socket of the application passes through described first, second power supply The terminal thickness of terminal thickeies passes through property to reduce impedance strengthening electric current, simultaneously by corresponding for described metal medium plate described first, the Cut out at two power supply terminal positions the strip hole of terminal bearing of trend with avoid first, second power supply terminal of described thickening with Described metal medium plate causes the problem of short circuit to occur.

The terminal thickness of first, second terminal group thickeies to reduce impedance, and then the temperature-rise effect of reduction terminal, meanwhile, For ensureing that described first, second terminal group will not lead to because thickness increases and the short circuit of described metal medium plate, by described first, the Metal medium plate excision between binary signal terminal and described first, second power supply terminal, makes described metal medium plate exist only in institute State between first, second ground terminal, to ensure to lead to produce asking of short circuit between terminal because of the increase of terminal thickness Topic.

Brief description

Fig. 1 is the three-dimensional combination figure of the application high current USB Type c-type socket；

Fig. 2 is the three-dimensional exploded view of the application high current USB Type c-type socket；

Fig. 3 is the optical cable of the application high current USB Type c-type socket；

Fig. 4 is the axonometric chart of the metal medium plate of the application high current USB Type c-type socket；

Fig. 5 is first end subgroup, Second terminal group and the metal medium plate group of the application high current USB Type c-type socket The top view closing；

Fig. 6 is first end subgroup, Second terminal group and the metal medium plate group of the application high current USB Type c-type socket The front view closing；

Fig. 7 is the sectional view along A-A dotted line shown in Fig. 5 for the application high current USB Type c-type socket；

Fig. 8 is the position of the ground terminal, power supply terminal and metal medium plate of the application high current USB Type c-type socket Figure；

Fig. 9 is that the first end subgroup of the application high current USB Type c-type socket is superimposed cooperation figure with metal medium plate；

Figure 10 is the side view with metal medium plate for the first end subgroup of the application high current USB Type c-type socket；

Figure 11 is first end subgroup and the metal medium plate integrated injection molding of the application high current USB Type c-type socket Form the structure chart of the first insulator；

Figure 12 is that the Second terminal group integrated injection molding formation second of the application high current USB Type c-type socket is exhausted The state diagram of edge body；

Figure 13 is that the Second terminal group integrated injection molding formation second of the application high current USB Type c-type socket is exhausted Side view after edge body；

Figure 14 is that the application high current USB Type c-type socket first end subgroup, metal medium plate and the first insulator are constituted Assembly coordinate described Second terminal group with second insulator constitute another assembly state diagram；

Figure 15 is that the application high current USB Type c-type socket first end subgroup, metal medium plate and the first insulator are constituted Assembly coordinate another assembly that described Second terminal group is constituted with the second insulator to form the 3rd again after injection mo(u)lding The state diagram of insulator；

Fig. 1 to Figure 15 is the accompanying drawing of the application first embodiment；

Figure 16 is the solid of the metal medium plate connection material strip of the application high current USB Type c-type socket second embodiment Figure；

Figure 17 is the metal medium plate of the application high current USB Type c-type socket second embodiment, first, second terminal The combination top view of group；

Figure 18 is the axonometric chart of the metal medium plate of the application high current USB Type c-type socket 3rd embodiment；

Figure 19 is the metal medium plate of the application high current USB Type c-type socket 3rd embodiment, ground terminal, power supply The cooperation figure of terminal；

Figure 20 is the metal medium plate of the application high current USB Type c-type socket 3rd embodiment, ground terminal, power supply Side view after terminal cooperation.

Specific embodiment

Embodiment one

Technical scheme and the know-why of the embodiment of the present application one are discussed in detail below with reference to Fig. 1-Figure 15.

Refer to shown in Fig. 1 to Fig. 4, the application high current USB Type c-type socket includes metal medium plate 40, is located at institute State metal medium plate first end subgroup 50 of both sides about 40, Second terminal group 70, by described first end subgroup 50 and described metal Middle plate 40 takes shape in the first insulator 60 of one, the second insulator 80 taking shape in described Second terminal group 70（As Figure 12 Shown）, described first insulator 60 is shaped to the 3rd insulator 90 of an entirety, is sheathed on described second insulator 80 Earthing member 30 on described 3rd insulator 90, enclose the metal shell 10 outside described 3rd insulator 90 and be integrally formed In the 4th insulation to eliminate gap between described metal shell 10 and described 3rd insulator 90 for described metal shell 10 rear end Body 20.

Described metal medium plate 40 includes main part 41, extends the weld part 46 being formed from described main part 41 rear end, opens up Some perforates 47 on described main part 41 and be formed at described main part 41 lateral outer side and with buckle and contact docking and connect The clamping part 45 of device.Two strip holes opening up formation on terminal group 50,70 bearing of trend are additionally included on described main part 41 42, described main part 41 is divided into intermediate body portions 41b and is located at described intermediate body portions 41b both sides by described strip hole 42 Both sides main part 41a, described intermediate body portions 41b passed through in the rear and front end in grafting direction with described both sides main part 41a Front end connecting portion 44 is connected as one with rear connecting portion 43, and the upper surface concave shape of described rear connecting portion 43 is in depression portion 431.

Described metal shell 10 includes annular body 11, is downwardly extending from described annular body 11 rear end both lateral sides Solid weldering portion 12, be shaped in described annular body 11 front end water proof ring 13 and located at described annular body 11 rear end top Some pore structures 14 on face.

Refer to shown in Fig. 5, Fig. 6, Fig. 7, Fig. 8, described first end subgroup 50 includes two first positioned at both lateral sides Ground terminal 50a, some first signal terminal 50c being located between described two first ground terminal 50a and two first electricity Source terminal 50b.It is respectively equipped with two the first signals between described the first adjacent ground terminal 50a and the first power supply terminal 50b Terminal 50c, is provided with four the first signal terminal 50c between described two first power supply terminal 50b.

Described Second terminal group 70 includes two the second ground terminal 70a positioned at both lateral sides, is located at described two the Some secondary signal terminal 70c between two ground terminal 70a and two second source terminal 70b.Described adjacent second connects It is respectively equipped with two secondary signal terminal 70c, described two second source ends between ground terminal 70a and second source terminal 70b It is provided with four secondary signal terminal 70c between sub- 70b.

Point symmetry structure centered on described first end subgroup 50 and the terminal arrangement mode of described Second terminal group 70, that is, according to Secondary put in order for a ground terminal, two signal terminals, power supply terminal, four signal terminals, power supply terminal, Two signal terminals, ground terminals.

The terminal thickness of the first, second power supply terminal 50b of the application, 70b is more than described first, second signal terminal The thickness of 50c, 70c.In being embodied as, the thickness of described first, second ground terminal 50a, 70a can with described first, Second source terminal 50b, 70b or described first, second signal terminal 50c, the thickness of 70c identical it is preferable that described first, Second ground terminal 50a, the thickness of 70a and described first, second power supply terminal 50b, 70b is identical.Described first, second power supply The terminal thickness of terminal 50b, 70b is 0.18 ~ 0.26mm, the thickness of described first, second signal terminal 50c, 70c is 0.11 ~ It is preferable that described first, second power supply terminal 50b, the thickness of 70b is 0.24 ~ 0.26mm, most preferably 0.25mm to 0.13mm.Institute State the first ground terminal 50a, the first signal terminal 50c, the first power supply terminal 50b away from described metal medium plate 40 a side surface It is in same level；Described second ground terminal 70a, secondary signal terminal 70c, second source terminal 70b are away from described One side surface of metal medium plate 40 is in same level.

Strip hole 42 on described metal medium plate 40 is located at described first, second power supply terminal 50b in vertical direction, Between 70b, described first, second power supply terminal 50b, 70b thin recessed at the front end connecting portion 44 positioned at described strip hole 42 Fall into formed groove 54,74 to increase described first, second power supply terminal 50b, between 70b and described front end connecting portion 44 away from From preventing described first, second power supply terminal 50b, 70b and described front end connecting portion 44 cause short because of high temperature or manufacturing process Road problem.Described first, second power supply terminal 50b, 70b form described groove 54,74 because thinning, and necessarily reduce described terminal horizontal Sectional area, increase first, second power supply terminal 50b, the impedance of 70b, but, described first, second power supply terminal 50b, 70b with The power supply terminal of butt connector（Not shown）Final docking location be located at described front end connecting portion 44 rear, groove 54, Be not a part for current loop at 74, i.e. groove 54,74 lead to the increase of this part impedance that whole electric current can't be returned The temperature rise on road impacts.And the rear connecting portion 43 of described metal medium plate 40 to form depressed part 431 at surface equally permissible Increase the distance between rear connecting portion 43 and described first power supply terminal 50b, and the rear end of described second source terminal 70b exists At described rear connecting portion 43 downward bending without affecting described second source terminal 70b.Described first, second power supply The remainder of terminal 50b, 70b is respectively positioned on the both sides up and down in described strip hole 42, is not in described metal medium plate 40 and institute State first, second power supply terminal 50b, the risk of 70b short circuit.

Described first, second ground terminal 50a, 70a according to described first, second power supply terminal 50b, 70b is identical Thickness, then described first, second ground terminal 50a, 70a be allowed to directly described metal medium plate 40 and contact and be grounded, and Described metal medium plate 40 then can be with the grounding assembly of butt connector（Not shown）The part contacting and becoming loop is to mitigate Described first, second ground terminal 50a, the temperature-rise effect of 70a.

Described 3rd insulator 90 includes base portion 91, extends forward the installation portion 92 of formation from described base portion 91 and from institute State the docking tongue 93 that installation portion 92 extends forward formation.

Described first, second terminal group 50,70 all includes being exposed to the contact site of the both side surface of described docking tongue 93 51,71, from described contact site 51,71 rear end extend formed the holding parts 52 being immobilizated in described 3rd insulator 90,72 and Extend the leg 53,73 being formed from described holding parts 52,72.

Below with reference to the manufacture that the application high current USB Type c-type socket is discussed in detail shown in Fig. 9 to Figure 15 Journey：

Because the thickness of described first power supply terminal 50b, the first ground terminal 50a is more than described first signal terminal 50c, Lead to described first end subgroup 50 cannot carry out punch forming by same sheet material；Because described second source terminal 70b, second The thickness of ground terminal 70a is more than described secondary signal terminal 70c, leads to described Second terminal group 70 cannot pass through same sheet material Carry out punch forming.

Step one, offer sheet metal, are stamped and formed out described first end subgroup 50, Second terminal group 70 and described gold respectively Plate 40 in genus, this step includes：

Two before and after first signal terminal 50c of first end subgroup 50 described in punch forming, described first signal terminal 50c End is connected to pocket 56a after material strip 56b and the first signal terminal before the first signal terminal；First power supply described in punch forming Terminal 50b and the first ground terminal 50a, described first power supply terminal 50b are with described first ground terminal 50a rear and front end respectively It is connected with material strip 55a after material strip 55b and the first power supply terminal before the first power supply terminal；Material strip 56b before described first signal terminal Bending to be to be located at material strip 55b before described first power supply terminal upwards, material strip 55a downward bending after described first power supply terminal To be located at the lower section of material strip 56a after described first signal terminal.Secondary signal terminal 70c described in punch forming, described The rear and front end of binary signal terminal 70c is connected to material strip after material strip 76b and secondary signal terminal before secondary signal terminal 76a；Second source terminal 70b described in punch forming and described second ground terminal 70a, described second source terminal 70b and institute The rear and front end stating the second ground terminal 70a is connected to and expects after material strip 75b and second source terminal before second source terminal Band 75a；Before described secondary signal terminal, material strip 76b downward bending is to be located at material strip 75b before described second source terminal Lower section, material strip 76a bending upwards after described secondary signal terminal, after described second source terminal, bending is more upwards for material strip 75a Distance is to be located at the top of material strip 76a after described secondary signal terminal.

Step 2, described first end subgroup 50 is combined with described metal medium plate 40 carry out injection mo(u)lding formed first insulation Body 60, including：

By described metal medium plate 40, the first signal terminal 50c of first end subgroup 50, the first power supply terminal 50b and first Ground terminal 50a pass through described first signal terminal before and after material strip 56b, material strip 55b before and after 56a, the first power supply terminal, 55a with The front material strip 48 of metal medium plate 40 is fixed by certain position, carries out injection molding operations in described metal medium plate 40 and described first First insulator 60 formed on terminal group 50, described first end subgroup 50, metal medium plate 40 and described ground insulator 60 composition the One assembly.After injection mo(u)lding, by material strip 56b, the front material strip 48 of metal medium plate 40, the first power supply before described first signal terminal Material strip 55b before and after terminal, 55a complete resection.It is formed with some up/down perforations on first insulator 60 of described first assembly Through hole 61.

By the secondary signal terminal 70c of described Second terminal group 70, second source terminal 70b and the second ground terminal 70a By material strip 76b before and after described secondary signal terminal, it is solid that material strip 75b before and after 76a and second source terminal, 75a press certain position Fixed, carry out injection molding operations and the second insulator 80, described Second terminal group 70 and institute are formed on described Second terminal group 79 State the second insulator 80 and constitute the second assembly.After injection mo(u)lding, excise described second source terminal before and after material strip 75b, 75a with Material strip 76b before described secondary signal terminal.It is again provided with some up/down perforations on second insulator 80 of described second assembly Through hole 81.

Step 3, described first assembly is combined in above described second assembly, now, described second assembly Material strip 76a downward bending after secondary signal terminal, after making described secondary signal terminal, material strip 76a is located at described first signal Will not conflict below material strip 56a after terminal.Third time injection mo(u)lding is carried out on described first, second assembly to be formed State the 3rd insulator 90, during third time injection mo(u)lding, described in described plastic material insertion, first, second insulator 60,80 passes through Described first, second assembly is simultaneously coated on interior by through hole 61,81.The both lateral sides edge of described metal medium plate 40 is then exposed to institute State the outside of the 3rd insulator 90.

Step 4, described earthing member 30 is installed on the installation portion 92 of described 3rd insulator 90, then will form anti- The metal shell 10 of hydrosphere 13 is inserted in outside described 3rd insulator 90.

Step 5, in described metal shell 10, end after 90s carries out the 4th injection mo(u)lding and forms the with described 3rd insulator Four insulators 20, described 4th insulator 20 is combined fixing with the pore structure 14 of described metal shell 10.

It should be noted that the above-mentioned manufacture method of the application merely illustrates one of which material strip excision reservation mode, In specific implementation process, in step 3, the material strip finally retaining is not limited to material strip 56a and secondary signal end after the first signal terminal Sub- 76a, can be any one in material strip 55a after material strip 56a and the first power supply terminal after the first signal terminal and secondary signal Material strip 76a and any one combine in material strip 75a after second source terminal after terminal.In material strip after two kinds of combination at least Need to by material strip bending after one of which so that after two kinds the position of material strip do not produce conflict.

Embodiment two

Refer to the application second embodiment shown in Figure 16, Figure 17, compared to embodiment one, the difference of embodiment two exists In：By strip hole 42 insertion in the plugging direction on described metal medium plate 40, described metal medium plate 40 is made to be divided into again completely Independent intermediate body portions 41b and two both sides main part 41a.Now, described first, second power supply terminal 50b, before 70b End need not arrange groove structure again, also there is not described first, second power supply terminal 50b, and 70b is apart from described metal medium plate 40 mistake Near risk.

But at this time, it may be necessary to change, described metal medium plate 40 in punching course forming process, described intermediate body portions 41b and two both sides main part 41a is individually connected to and can solve middle master on the front material strip 48 of described metal medium plate 40 Body 41b separates, with both sides main part 41a, the material strip connectivity problem causing.

Embodiment three

Refer to the application 3rd embodiment shown in Figure 18 to Figure 20, compared to first embodiment, the area of embodiment three It is not：The front end connecting portion 44 in the strip hole 42 of metal medium plate 40 is excised, only retains rear connecting portion 43, and described rear end Connecting portion 43 is without thinning formation depressed part.

And described first power supply terminal 50b is extending in parallel after at described rear connecting portion 43 using bending upwards Mode, the anterior position that described first power supply terminal 50b is located at described rear connecting portion 43 forms bending part 57 upwards, and from The parallel extensions 58 extending after described bending part upwards 57.Described bending part upwards 57 and described parallel extensions 58 are located at institute State on holding parts 52.Thus, described parallel extensions 58 will increase apart from the distance of described rear connecting portion 43, and described solid Hold and all can be coated by an insulating material above portion 52, the condition extending after possessing bending.

And described second source terminal 70b downward bending when at described rear connecting portion 43 position, no The structure design extending after bending need to be carried out.But in actual implementation process, if described second source terminal 70b needs to cross institute State rear connecting portion 43, then can be re-extended after downward bending with adopting and the first power supply terminal 50b identical mode.

Compared to prior art, the high current USB Type c-type socket of the application passes through described first, second power supply The terminal thickness of terminal 50b, 70b thickeies to reduce the impedance strengthening electric current property passed through, and described metal medium plate 40 is corresponded to institute simultaneously State first, second power supply terminal 50b, cut out at 70b position in the strip hole 42 of terminal bearing of trend to avoid described thickening First, second power supply terminal 50b, 70b and described metal medium plate cause the problem of short circuit to occur.

The terminal thickness of first, second terminal group 50,70 thickeies to reduce impedance, and then the temperature-rise effect of reduction terminal, Meanwhile, will not lead to because thickness increases and the short circuit of described metal medium plate 40 for ensureing described first, second terminal group 50,70, By described first, second signal terminal 50c, 70c and described first, second power supply terminal 50b, the metal medium plate 40 between 70b Excision, makes described metal medium plate 40 exist only in described first, second ground terminal 50a, between 70a, will not be because of end with guarantee The increase of sub- thickness and leading to produces the problem of short circuit between terminal.

Claims (10)

1. a kind of high current USB Type c-type socket, including be provided with main part metal medium plate, respectively be located at described metal in The upper and lower both sides of plate and symmetrical first end subgroup, Second terminal group, described first, second terminal group is become with described metal medium plate Type in the insulating body of one, described first, second terminal group include respectively positioned at outermost two the first ground terminals with Two the second ground terminals, some first signal terminals being located between described two first ground terminals and two the first power supplys Terminal and some secondary signal terminals between described two second ground terminals and two second source terminals, it is special Levy and be, the thickness of described first, second power supply terminal is more than the thickness of described first, second signal terminal, in described metal The main part of plate offers strip hole at the position of corresponding described first, second power supply terminal.

2. high current USB Type c-type socket as claimed in claim 1 is it is characterised in that described strip hole is by described main body Part is slit into intermediate body portions and two both sides main parts, and described intermediate body portions pass through rear end with described two both sides main part Connecting portion connects as one, and described first power supply terminal extends after holding at connecting portion bending upwards in the rear.

3. high current USB Type c-type socket as claimed in claim 1 is it is characterised in that the rear and front end in described strip hole Front end connecting portion is had with rear connecting portion, described metal medium plate to be connected as a single entity respectively, the upper surface of described rear connecting portion is formed There is depressed part, thin formation at the connecting portion of described first, second power supply terminal corresponding described front end fluted.

4. high current USB Type c-type socket as claimed in claim 1 is it is characterised in that described strip hole is by described main body Part is slit into separate intermediate body portions and two both sides main parts, described intermediate body portions and two both sides main parts Do not have independent connections on a front material strip of described metal medium plate.

5. the high current USB Type c-type socket as described in any one of claim 2-4 is it is characterised in that described first power supply Terminal, the first ground terminal and the first signal terminal are in same level on the surface away from described metal medium plate side, institute State second source terminal, the second ground terminal, secondary signal terminal be in the side surface away from described metal medium plate same Horizontal plane.

6. high current USB Type c-type socket as claimed in claim 5 is it is characterised in that described first, second power end The thickness of son is 0.18 ~ 0.26mm, and the thickness of described first, second signal terminal is 0.11 ~ 0.13mm.

7. high current USB Type c-type socket as claimed in claim 6 is it is characterised in that described first, second power end The thickness of son is 0.24 ~ 0.26mm.

8. high current USB Type c-type socket as claimed in claim 5 is it is characterised in that described first, second earth terminal The thickness of son is equal with the thickness of described first, second power supply terminal.

9. high current USB Type c-type socket as claimed in claim 5 is it is characterised in that described strip hole is in grafting direction On run through the front end of described metal medium plate, described metal medium plate also include from described main part rear end extend the weld part being formed, Some perforates of being opened on described main part and be formed at described main part lateral outer side and with buckle and contact butt connector Clamping part.

10. the high current USB Type c-type socket as described in any one of claim 1-4 it is characterised in that described insulation this Body includes described first end subgroup and described metal medium plate being shaped to the first insulator of the first assembly, by described second end Subgroup is shaped to the second insulator of the second assembly and described first assembly and described second assembly is shaped to the 3rd 3rd insulator of assembly, described high current USB Type c-type socket also includes being sheathed on the external gold of described 3rd insulation Belong to shell.