CN204809559U - Plug electric connector - Google Patents

Abstract

A plug electrical connector includes an insulative housing, a terminal and a shield housing. The insulating main body comprises a base, plate bodies and slots, wherein the base comprises grooves, the plate bodies extend to one side of the base, and the slots are located between the plate bodies. The terminal is located at the insulating main body, comprises a spring plate type contact end and is located at the slot. The shielding shell covers the insulating main body and comprises a rear end cover body and a front end cover body. The base is arranged in the rear end cover body, the rear end cover body comprises a leaning plate which is propped against the groove, the front end cover body is drawn out of the rear end cover body and formed on the front side of the rear end cover body, the front end cover body protrudes out of the front side of the rear end cover body, and the plate body is arranged in the front end cover body.

Description

Plug connector

Technical field

The utility model has about a kind of electric connector, refers to a kind of plug connector especially.

Background technology

General electric connector interface is universal serial bus (UniversalSerialBus, be called for short USB), the characteristic of its plug and play and widely ordinary consumer used, and to be developed to now for transmission speed USB3.0 transmission standard faster with USB2.0 transmission standard.

Existing USB plug electric connector contains insulating body and shield shell, after shield shell is covered in insulating body, and bridging effect during to provide transmission signal.

But the shield shell of general USB plug electric connector is that bending process is formed, make shield shell to be formed gap (or claiming holes), and shield shell is formed the problem that holes can cause shielding not good.That is, USB plug electric connector is when transmission signal, and signal is dispersed and exposes from holes, causes the problem of electromagnetic interference (ElectromagneticInterference is called for short EMI) and radio frequency interference (RadioFrequencyInterference is called for short RFI).

Utility model content

Because the problems referred to above, the utility model provides a kind of plug connector, comprising: an insulating body, comprises a pedestal, a upper plate body, a lower body and a slot, this upper plate body and this lower body are arranged at the side of this pedestal, and this slot is between this upper plate body and this lower body; Upper row's terminal, is positioned at the lower surface of this upper plate body, and on this, row's terminal comprises row's shell fragment type contact jaw, extends this slot and transmits one group of first signal; Lower row's terminal, is positioned at the upper surface of this lower body, and this lower row's terminal comprises lower row's shell fragment type contact jaw, extends this slot and transmits one group of second signal; And a shield shell, inside is arranged at this insulating body, it is characterized in that: this shield shell comprises: a rear end cover body, and inside is arranged at this pedestal; And a front end cover body, take out draw be formed at this rear end cover body in this rear end cover body before side, this front end cover body protrude from this rear end cover body before side, this upper plate body and this lower body are arranged at the inside of this front end cover body.

Described shield shell comprises a frame mouth, and blanking is formed at the front side of this front end cover body.

Described insulating body comprises a circuit board, is incorporated into the rear side of this pedestal.

Described shield shell comprises clamp sidewall, is positioned at the both sides of this rear end cover body and is held on the both sides of this circuit board.

Described circuit board comprises a upper surface, a lower surface and contact, and this contact is positioned at the both sides of this upper surface and this lower surface and is electrically connected at this clamp sidewall.

Described clamp sidewall comprises hook part and holes, and this holes is placed in the both sides of this circuit board between this hook part.

Described hook part is held in the upper and lower surface of this circuit board symmetrically.

Described hook part is held in the rear surface of this circuit board symmetrically.

Described pedestal comprises groove, and this rear end cover body comprises against plate, is held in this groove.

Described shield shell more comprises a rear casing, is covered in the rear side of this pedestal, and this rear casing comprises a front end extension board, is overlapped in this rear end cover body and is fixed on this shield shell.

Described upper plate body and this lower body extend to form the side in this pedestal.

In sum, side before the utility model utilizes front end cover body to take out to draw and is formed at rear end cover body, front end cover body forms the hollow housing of a gapless.Front end cover body itself forms by blanking and bending and molding manufacture.Without any holes in the structure of front end cover body, the external form of gapless can be reached in appearance, to increase the aesthetic feeling of shield shell.In addition, form the hollow housing of a gapless through front end cover body, can without any holes in the structure of front end cover body, avoid because of holes cause shielding not good problem, reduce the problem of electromagnetic interference (EMI) and radio frequency interference (RFI), and then the not good problem of design is covered in improvement.In addition, the hollow housing that front end cover body forms a gapless also can increase the intensity of structure, and can effectively prevent plug connector and electric connector for socket when docking, and the problem causing shield shell to misplace produces.In addition, front end cover body, utilizes the clamp sidewall of the both sides of rear end cover body to be electrically connected at circuit board, effectively to conduct the problem reducing electromagnetic interference (EMI) and radio frequency interference (RFI) with ground connection.

Accompanying drawing explanation

The decomposing schematic representation of the plug connector of Fig. 1 the utility model.

The schematic appearance (one) of the shield shell of Fig. 2 the utility model.

The schematic appearance (two) of the shield shell of Fig. 3 the utility model.

Generalized section before the shield shell processing of Fig. 4 the utility model.

Generalized section after the shield shell processing of Fig. 5 the utility model.

The shield shell of Fig. 6 the utility model and the schematic side view () of circuit board.

The shield shell of Fig. 7 the utility model and the schematic side view (two) of circuit board.

The front casing of Fig. 8 the utility model is in conjunction with the decomposing schematic representation () of rear casing.

The front casing of Fig. 9 the utility model is in conjunction with the generalized section of rear casing.

The front casing of Figure 10 the utility model is in conjunction with the decomposing schematic representation (two) of rear casing.

Symbol description

100 plug connectors

1 insulating body

11 pedestals

111 grooves

121 upper plate bodies

122 lower bodies

13 slots

2 terminals

2a arranges terminal

Terminal is arranged under 2b

Shell fragment type contact jaw is arranged on 21

22 times row's shell fragment type contact jaws

3 shield shells

31 front casings

310 frame mouths

311 front end cover bodies

312 rear end cover bodies

3121 clamp sidewall

3122 hook parts

3123 holes

313 against plate

32 rear casings

321 upper shells

3211 first support sidewall

322 lower houses

3221 second support sidewall

323 front end extension boards

324 bending segments

325 tie points

326 linkage sections

327 location-plates

4 circuit boards

41 upper surfaces

42 lower surfaces

43 contacts

44 rear surfaces

6 coated shells

7 transmission lines

71 wire rods.

Embodiment

Fig. 1 is the decomposing schematic representation of the plug connector of the utility model.Please refer to Fig. 1, is the embodiment of the plug connector 100 of the utility model.In the present embodiment, plug connector 100 is micro USB (Type-C) linkage interface specification.Plug connector 100 comprises insulating body 1, terminal 2 and shield shell 3.

Fig. 9 is the generalized section of front casing in conjunction with rear casing of the utility model.Please refer to Fig. 1 Fig. 9 again, at this, insulating body 1 comprises pedestal 11, upper plate body 121, lower body 122 and slot 13, and upper plate body 121, lower body 122 are arranged at the side of pedestal 11, and slot 13 is defined between upper plate body 121, lower body 122.At this, insulating body 1 is formed with pedestal 11, upper plate body 121, lower body 122 and slot 13 in the mode of ejection formation (injection-molding); Also or with upper plate body 121 and lower body 122 independently to arrange with pedestal 11 and form.

Refer again to Fig. 1 and Fig. 9, in the present embodiment, terminal 2 includes row's terminal 2a and lower row's terminal 2b respectively.Further, terminal 2 is positioned at insulating body 1, and terminal 2 comprises row's shell fragment type contact jaw 21, and upper row's shell fragment type contact jaw 21 is positioned at slot 13.The side of upper row's terminal 2a has upper row's shell fragment type contact jaw 21, is positioned at the lower surface of upper plate body 121, and upper row's shell fragment type contact jaw 21 extends slot 13 and transmits one group of first signal (i.e. USB3.0 signal).The side of lower row's terminal 2b has lower row's shell fragment type contact jaw 22, is positioned at the upper surface of lower body 122, and lower row's shell fragment type contact jaw 22 extends slot 13 and transmits one group of second signal (i.e. USB3.0 signal).

Fig. 2 is the schematic appearance () of the shield shell of the utility model, and Fig. 3 is the schematic appearance (two) of the shield shell of the utility model.Refer again to Fig. 1, Fig. 2 and Fig. 3, shield shell 3 diel with take out draw processes after form a hollow housing.In the present embodiment, shield shell 3 is covered in insulating body 1, and shield shell 3 is combined by multi-piece type component, and shield shell 3 comprises front casing 31 and rear casing 32.Front casing 31 comprises front end cover body 311 and rear end cover body 312.

Fig. 4 is that the shield shell of the utility model processes front generalized section, and Fig. 5 is that the shield shell of the utility model processes rear generalized section.Refer again to Fig. 4, Fig. 5 and Fig. 9, front end cover body 311 is covered in upper plate body 121, lower body 122, that is, upper plate body 121, lower body 122 are arranged at the inside of front end cover body 311, front end cover body 311 takes out the front side of drawing and being formed at rear end cover body 312, and front end cover body 311 forms the hollow housing (as Fig. 2 and Fig. 3) of a gapless.Without any holes in the structure of this means, front end cover body 311, each surface smoothing of front end cover body 311, can reach the external form of gapless in appearance, to increase the aesthetic feeling of shield shell 3.In addition, the hollow housing of a gapless is formed through front end cover body 311, can without any holes in the structure of front end cover body 311, avoid because of holes cause shielding not good problem, reduce electromagnetic interference (ElectromagneticInterference, be called for short EMI) with the problem of radio frequency interference (RadioFrequencyInterference, be called for short RFI), and then improve and cover the not good problem of design.In addition, the hollow housing that front end cover body 311 forms a gapless also can increase the intensity of structure, effectively prevents plug connector 100 and electric connector for socket when grafting, the problem generation causing shield shell 3 misplace.

Refer again to Fig. 4, Fig. 5 and Fig. 9, rear end cover body 312 is positioned at the rear side of front end cover body 311, and rear end cover body 312 is covered in the outside of pedestal 11, and that is, pedestal 11 is arranged at the inside of rear end cover body 312.This means, front end cover body 311 protrudes from the front side of rear end cover body 312 and is covered in upper plate body 121, lower body 122.At this, front end cover body 311 and rear end cover body 312 are formed by same plate.In addition, rear casing 32 is covered in the rear side of pedestal 11, and rear casing 32 comprises front end extension board 323, and front end extension board 323 is positioned at the summary middle position in the front of rear casing 32.In the present embodiment, front end extension board 323 is overlapped in rear end cover body 312 and is fixed on front end extension board 323 and rear end cover body 312.Further, the width of front end extension board 323 is less than the width of rear end cover body 312, but not as limit.Implement in aspect at some, the width of front end extension board 323 also slightly can equal the width of rear end cover body 312, meaning namely, front end extension board 323 can the slightly whole effect be covered in above rear end cover body 312, and, after front end extension board 323 and rear end cover body 312 are fixing, can large-area fixed form in conjunction with the firm effect of front end extension board 323 with rear end cover body 312.

Refer again to Fig. 4 and Fig. 5, when processing shield shell 3, the rear end cover body 312 of initial condition is a plate structure (as shown in Figure 4), and rear end cover body 312 is processed by diel, and diel is to take out the mode shaping front end cover body 311 on rear end cover body 312 drawing technique.That is, can diel repeatedly punching press on rear end cover body 312, make that the front of rear end cover body is outstanding forms front end cover body 311.Specifically, in the present embodiment, diel includes spill pedestal and drift, rear end cover body 312 is placed between spill pedestal and drift, treat repeatedly with the central authorities of punch rear end cover body 312, make rear end cover body 312 be extruded with front end cover body 311, at this, front end cover body 311 to be formed in spill pedestal and to be shaped to a hollow circuit cylinder.Afterwards, the processing mode of recycling blanking punching, in the front end of front end cover body 311, makes the front end of front end cover body 311 form frame mouth 310(as shown in Figure 5).

Refer again to Fig. 5 and Fig. 9, after current shell 31 is covered in this insulating body 1, rear end cover body 312 is for being covered in the outside of pedestal 11.Combined with front casing 31 by before side direction after insulating body 1 by rear casing 32 again, make the front end extension board 323 of rear casing 32 be overlapped in the top of rear end cover body 312.Front end extension board 323 and rear end cover body 312 is made to be fixed on one piece.

Fig. 8 is the decomposing schematic representation () of front casing in conjunction with rear casing of the utility model, and Fig. 9 is the generalized section of front casing in conjunction with rear casing of the utility model, and Figure 10 is the decomposing schematic representation (two) of front casing in conjunction with rear casing of the utility model.Refer again to Fig. 8, Fig. 9 and Figure 10, in certain embodiments, fixed form can be: the 1st kind of mode is that rear casing 32 comprises tie point 325, be positioned at front end extension board 323 and be connected to rear end cover body 312, that is, front end extension board 323 and rear end cover body 312(is connected as shown in Figure 9 with laser welding manner).Can from the surperficial laser welding processing of front end extension board 323, make front end extension board 323 forms tie point 325, tie point 325 is connected to rear end cover body 312, makes front end extension board 323 and rear end cover body 312 form one and closely fix.2nd kind of mode is that rear casing 32 comprises linkage section 326, is positioned at the ora terminalis of front end extension board 323 and is connected to rear end cover body 312(as shown in Figure 10), that is, tin envelope processing procedure mode front end extension board 323 and rear end cover body 312 can be connected.Can connect with whole scolding tin section from the ora terminalis of front end extension board 323, the scolding tin section of the ora terminalis of front end extension board 323 is connected with the surface of rear end cover body 312, make front end extension board 323 and rear end cover body 312 form one and closely fix.3rd kind of mode is that front end extension board 323 comprises a holding piece (not shown), and holding piece is held in rear end cover body 312, front end extension board 323 and rear end cover body 312 is combined closely and fixes.4th kind of mode is that rear end cover body 312 comprises a holding piece (not shown), and holding piece is held in front end extension board 323, front end extension board 323 and rear end cover body 312 is combined closely and fixes.The utility model is overlapped in rear end cover body 312 by front end extension board 323, makes can keep consistency and continuity when conducting signal between front casing 31 and rear casing 32.In addition, overlapped by front end extension board 323 and rear end cover body 312 and be fixed on one piece, the gap between front end extension board 323 and rear end cover body 312 can be covered and there is good shielding, avoid producing gap between front end extension board 323 and rear end cover body 312 and causing shielding not good, produce the problem of radio frequency interference (RadioFrequencyInterference is called for short RFI).

Refer again to Fig. 1, Fig. 8 and Fig. 9, in the present embodiment, insulating body 1 comprises circuit board 4 and coated shell 6 further.Circuit board 4 is incorporated into the rear side of pedestal 11, and is finally combined with coated shell 6 and transmission line 7 in the outside of circuit board 4.Further, circuit board 4 is covered in and protective circuit plate 4 by shield shell 3.When after the wire rod 71 circuit board 4 welding transmission line 7, avoid damaging the electronic component of welding on circuit board 4 for carrying out Overmolded (overmolding) in circuit board 4 outside.Such as during bag inner membrance glue, in the process of rushing glue, by the electronic component of welding on shield shell 3 protective circuit plate 4, avoid glue to pour into in the process of the inside of shield shell 3, damage the electronic component of welding on circuit board 4.At this, rear casing 32 comprises fasten upper shell 321 and lower house 322, and upper shell 321 and lower house 322 lay respectively at top and the below of circuit board 4.Upper shell 321 comprises first further and supports sidewall 3211, is held on the both sides of circuit board 4, and lower house 322 comprises second further and supports sidewall 3221, and second supports sidewall 3221 crisscrosses first and support sidewall 3211 and be held on the both sides of circuit board 4.

In addition, refer again to Fig. 1, Fig. 8 and Fig. 9, in the present embodiment, circuit board 4 comprises upper surface 41, lower surface 42 and contact 43 further, contact 43 is positioned at the both sides of upper surface 41 and lower surface 42, when the upper shell 321 of rear casing 32 and lower house 322 are incorporated on circuit board 4, first supports sidewall 3211 and second supports sidewall 3221 and can be connected on contact 43, rear casing 32 is made to be electrically connected at circuit board 4, effective conduction is provided to act on ground connection, reduce the problem of electromagnetic interference (ElectromagneticInterference, EMI).

Fig. 6 is the shield shell of the utility model and the schematic side view () of circuit board, and Fig. 7 is the shield shell of the utility model and the schematic side view (two) of circuit board.Refer again to Fig. 6, Fig. 7 and Fig. 8, in certain embodiments, shield shell 3 comprises clamp sidewall 3121 further, is positioned at the both sides of rear end cover body 312 and rearward extends in parallel.Clamp sidewall 3121 is held on the both sides of circuit board 4.At this, clamp sidewall 3121 can be electrically connected at the upper surface 41 of circuit board 4 and the contact 43 of lower surface 42, electromagnetic interference (ElectromagneticInterference is reduced with ground connection effectively to conduct, be called for short EMI) with the problem of radio frequency interference (RadioFrequencyInterference, be called for short RFI).Further, clamp sidewall 3121 comprises hook part 3122 and holes 3123 further, and holes 3123 is between hook part 3122.The both sides of circuit board 4 are placed in holes 3123 spacing.In the present embodiment, hook part 3122 is symmetrically, and this means, clamp sidewall 3121 has relative upper hook part 3122 and the structure of lower hook part 3122, the upper surface 41 being held in circuit board 4 that upper hook part 3122 is all outstanding with lower hook part 3122 and lower surface 42(are as shown in Figure 6), but not as limit.Implement in aspect at some, the rear surface 44(being held in circuit board 4 that upper hook part 3122 and lower hook part 3122 also can all be given prominence to as shown in Figure 7).

Refer again to Fig. 9, in certain embodiments, rear end cover body 312 comprises end face 3121 and the back side 3122 further, and front end extension board 323 is overlapped in end face 3121 or the back side 3122.That is, the front end extension board 323 in Fig. 9 is overlapped in end face 3121, but not as limit.Implement in aspect one, front end extension board 323 also can be overlapped in the back side 3122.Overlapping action with this can be stacked and placed on rear end cover body 312 by front end extension board 323, and reprocessing afterwards makes front end extension board 323 and rear end cover body 312 be fixed on one piece.

Refer again to Fig. 8 and Fig. 9, in certain embodiments, rear casing 32 comprises bending segment 324 further, be connected to front end extension board 323, rear casing 32 changes the position of front end extension board 323 by bending segment 324, make front end extension board 323 change different horizontal line positions, front end extension board 323 is overlapped on rear end cover body 312.Further, the both sides of front end extension board 323 form holes, conveniently carry out processing and forming bending segment 324 on front end extension board 323 when the Bending Processing of rear casing 32.

Refer again to Fig. 1 and Fig. 8, in certain embodiments, pedestal 11 comprises groove 111 further, is positioned at the both sides of pedestal 11 upper and lower surface.Rear casing 32 comprises location-plate 327 further, and location-plate 327 is positioned at the both sides of front end extension board 323 and is fixed on groove 111.Groove 111 can be fixed on and the fixation between rear casing 32 and pedestal 11 is provided by location-plate 327.This means, be fixed on groove 111 by location-plate 327 and provide rear casing 32 to be unlikely problem to both sides movement.In addition, front casing 31 comprises against plate 313 further, extends against plate 313 for being tilted to groove 111, and, be positioned at rear end cover body 312 against plate 313 and stretch into the medial surface being held in groove 111.By this, be positioned the top of location-plate 327 against plate 313, the problem that also can prevent location-plate 327 from departing from groove 111 occurs.

The utility model by front end cover body take out draw be formed at rear end cover body before side, front end cover body forms the hollow housing of a gapless.Front end cover body itself forms by blanking and bending and molding manufacture.Without any holes in the structure of front end cover body, the external form of gapless can be reached in appearance, to increase the aesthetic feeling of shield shell.In addition, form the hollow housing of a gapless through front end cover body, can without any holes in the structure of front end cover body, avoid because of holes cause shielding not good problem, reduce the problem of electromagnetic interference (EMI) and radio frequency interference (RFI), and then the not good problem of design is covered in improvement.In addition, the hollow housing that front end cover body forms a gapless also can increase the intensity of structure, and can effectively prevent plug connector and electric connector for socket when docking, and the problem causing shield shell to misplace produces.In addition, front end cover body, utilizes the clamp sidewall of the both sides of rear end cover body to be electrically connected at circuit board, effectively to conduct the problem reducing electromagnetic interference (EMI) and radio frequency interference (RFI) with ground connection.

Claims (11)

1. a plug connector, comprising:

One insulating body, comprises a pedestal, a upper plate body, a lower body and a slot, and this upper plate body and this lower body are arranged at the side of this pedestal, and this slot is between this upper plate body and this lower body;

Upper row's terminal, is positioned at the lower surface of this upper plate body, and on this, row's terminal comprises row's shell fragment type contact jaw, extends this slot and transmits one group of first signal;

Lower row's terminal, is positioned at the upper surface of this lower body, and this lower row's terminal comprises lower row's shell fragment type contact jaw, extends this slot and transmits one group of second signal; And

One shield shell, inside is arranged at this insulating body, it is characterized in that: this shield shell comprises:

One rear end cover body, inside is arranged at this pedestal; And

One front end cover body, take out draw be formed at this rear end cover body in this rear end cover body before side, this front end cover body protrude from this rear end cover body before side, this upper plate body and this lower body are arranged at the inside of this front end cover body.

2. plug connector according to claim 1, is characterized in that: described shield shell comprises a frame mouth, and blanking is formed at the front side of this front end cover body.

3. plug connector according to claim 1, is characterized in that: described insulating body comprises a circuit board, is incorporated into the rear side of this pedestal.

4. plug connector according to claim 3, is characterized in that: described shield shell comprises clamp sidewall, is positioned at the both sides of this rear end cover body and is held on the both sides of this circuit board.

5. plug connector according to claim 4, is characterized in that: described circuit board comprises a upper surface, a lower surface and contact, and this contact is positioned at the both sides of this upper surface and this lower surface and is electrically connected at this clamp sidewall.

6. plug connector according to claim 4, is characterized in that: described clamp sidewall comprises hook part and holes, and this holes is placed in the both sides of this circuit board between this hook part.

7. plug connector according to claim 6, is characterized in that: described hook part is held in the upper and lower surface of this circuit board symmetrically.

8. plug connector according to claim 6, is characterized in that: described hook part is held in the rear surface of this circuit board symmetrically.

9. plug connector according to claim 1, is characterized in that: described pedestal comprises groove, and this rear end cover body comprises against plate, is held in this groove.

10. plug connector according to claim 1, is characterized in that: described shield shell more comprises a rear casing, is covered in the rear side of this pedestal, and this rear casing comprises a front end extension board, is overlapped in this rear end cover body and is fixed on this shield shell.

11. plug connectors according to claim 1, is characterized in that: described upper plate body and this lower body extend to form the side in this pedestal.