CN207910140U - Double shield high speed docking connector - Google Patents

Abstract

The utility model discloses a kind of double shield high speed docking connector comprising has a shell, a positioning seat and row's frame assembly.The frame assembly has an insulator, two row by the dielectric support and is arranged to the signal terminal of differential pair, one is installed on the first shielding part of the insulator side and secondary shielding part that one is installed on the insulator other side and can be connected with first shielding part.The utility model double shield high speed docking connector can not only reduce crosstalk of the adjacent differential between signal terminal, can also effectively reduce the signal interference between adjacent frame component by the way that two shielding parts are arranged on each frame assembly.

Description

Double shield high speed docking connector

Technical field

The utility model is related to a kind of connectors can drop in particular to a kind of double shield high speed docking connector Crosstalk of the low adjacent differential between signal terminal.

Background technology

High speed docking connector（docking connector）For the market segments such as network and wireless device, Neng Gouti For the transmission of high speed or higher rate.As the intermediary of signal interconnection and transmission, the development of high speed docking connector plays extremely Consequence.

In high speed docking connector, differential signal is widely applied with its good interference free performance.But in reality In the application of border, the structure of existing high speed docking connector can not eliminate crosstalk noise of the adjacent differential between signal terminal, This seriously affects the signal integrity of High Speed System.

Therefore, applicant is energetically studying a kind of high speed docking that can effectively reduce crosstalk between adjacent differential pair Connector.

Utility model content

The main purpose of the utility model is to provide a kind of double shield high speed docking connectors, can effectively reduce adjacent The crosstalk between crosstalk and adjacent frame component between differential pair signal terminal.

The other objects and advantages of the utility model can be obtained from the technical characteristic disclosed by the utility model into one The understanding of step.

In order to achieve the above object, the utility model adopts the following technical solution：A kind of double shield high speed docking connector includes There are a longitudinal die-cast metal shell, a longitudinal positioning seat and row's frame assembly.The shell has a roof, a bottom Cavity made of wall, two side and one are surrounded by the roof, the bottom wall and the two side；The shell also have one ranking in The shell rear and perpendicular to the parallel ladder-like vertical wall of the roof and several separated by these vertical walls and And the horizontal channel being connected with the cavity.The positioning seat have the parallel ladder-like upstanding wall of a row and several by this A little upstanding walls separate and pass through the Vertical Channel of the positioning seat bottom.The frame assembly has an insulator, two row exhausted by this Edge body support and be arranged to the signal terminal of differential pair, one be installed on the insulator side the first shielding part and one peace Loaded on the insulator other side and the secondary shielding part that can be connected with first shielding part.Each signal terminal all has one It is exposed to the electrically conducting contact of the insulator front end and the conductive tail on a stretching insulator bottom edge；Wherein the conduction connects Contact portion enters across corresponding horizontal channel in the cavity of the shell, and the conductive tail is then across corresponding vertical logical Road and the bottom surface for stretching out the positioning seat.

In a wherein embodiment, which has at least one to run through at left and right sides of the insulator and poor positioned at adjacent two Divide the fixing groove between signal terminal.

In a wherein embodiment, which has the first vertical main body of a side for being posted by the insulator Portion and at least one it can extend into fixed arm in the fixing groove of the insulator；The secondary shielding part has one to be posted by this absolutely Second vertical main part of the other side of edge body, at least one are formed in resilient panel on the second vertical main part, Yi Jizhi Few one is formed in the resilient panel and can be aligned the lockhole of the fixing groove；The wherein front end of the fixed arm of first shielding part It is inserted into the lockhole of the secondary shielding part so that first shielding part is fixed together with the secondary shielding part and is fixed on together On the insulator.

In a wherein embodiment, which be combined by two half-unit, wherein a half portion supports a column signal Terminal, another half portion support another column signal terminal, the two half portions are combined so that this two column signals terminal constitutes multiple differences Divide to signal terminal；The fixing groove runs through the two half portions, and between every two adjacent signal terminals of each half portion With at least one fixing groove.

In a wherein embodiment, the fixed arm of first shielding part is formed towards the vertical bending of the insulator, and at this The front end of fixed arm is formed with an at least dentation inserted sheet；And the resilient panel of the secondary shielding part is towards the direction of the insulator Protrusion.

In a wherein embodiment, the both sides of the insulator are each provided at least one heat dissipation conduit；First shielding part is also The first trepanning being formed in at least one on the first vertical main part；And the secondary shielding part is also formed at least one The second trepanning on the second vertical main part；Wherein first trepanning both corresponds to dissipating for the insulator with second trepanning Heat channel road.

In a wherein embodiment, first shielding part is also at least one towards the of the direction bending far from the insulator One folding piece, to be contacted with the secondary shielding part of adjacent frame component；And the secondary shielding part also has at least one to be somebody's turn to do towards separate Second tabs of the direction bending of insulator, to be contacted with the first shielding part of another adjacent frame component.

In a wherein embodiment, which further includes having a row mountain font ground strip；And On the bottom surface of the positioning seat a lateral ground slot is each formed with corresponding to the bottom position of each upstanding wall；Each ground strip is pacified Loaded in corresponding lateral ground slot.

In a wherein embodiment, each ground strip is in mountain font；The ground strip is convexly equipped in this with a crossbeam, three U-shaped fixed part on crossbeam and three ground connection tail portions being formed on these U-shaped fixed parts.

In a wherein embodiment, each U-shaped fixed part all has a base portion and two are symmetrically arranged in the base portion two Side and arm perpendicular to the base portion.

In a wherein embodiment, which further includes having a strip fixator, this is fixed Utensil has orthogonal horizontal fixinig plate and vertical fixinig plate, which is fixed on the roof of the shell, and is somebody's turn to do Vertical fixinig plate is then fixed in the rear surface of the positioning seat.

Compared to the prior art, the utility model double shield high speed docking connector on each frame assembly by being arranged Two shielding parts to link together can not only reduce crosstalk of the adjacent differential between signal terminal, can also effectively drop Signal interference between low adjacent frame component.In addition, by the way that ground strip is arranged, crosstalk can be further decreased.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the utility model double shield high speed docking connector.

Fig. 2 is the decomposition texture schematic diagram of the utility model double shield high speed docking connector shown in Fig. 1.

Fig. 3 is the decomposition texture schematic diagram of the utility model double shield high speed docking connector in another direction.

Fig. 4 is the dimensional structure diagram of the shell of the utility model double shield high speed docking connector.

Fig. 5 is the structural schematic diagram of the utility model shell in another direction.

Fig. 6 is the shell section structural schematic diagram along line A-A shown in Fig. 5.

Fig. 7 is the dimensional structure diagram of the positioning seat of the utility model double shield high speed docking connector.

Fig. 8 is the positioning seat cross-sectional view along line B-B shown in Fig. 7.

Fig. 9 is the bottom surface portions structure enlargement diagram of the utility model positioning seat.

Figure 10 is the structural schematic diagram of a wherein frame assembly shown in Fig. 2, which has multiple be arranged to The signal terminal of differential pair.

Figure 11 is the decomposition texture schematic diagram of frame assembly shown in Figure 10, wherein by two shielding parts from the frame assembly Both sides are split.

Figure 12 is the structural schematic diagram after further decomposing frame assembly shown in Figure 11.

Figure 13 is the structural schematic diagram of the utility model frame assembly in another direction.

Figure 14 is the decomposition texture schematic diagram of frame assembly shown in Figure 13, is mainly shown two shielding parts from the frame The both sides of component are split.

Structures of the Figure 15 between two shielding part of the utility model assembles relationship.

Figure 16 is the dimensional structure diagram of the utility model ground strip.

Figure 17 is the bottom substance schematic diagram of the utility model double shield high speed docking connector, wherein mainly showing this The partial structurtes of bottom.

Figure 18 is the structural schematic diagram of a high speed plug connector, can dock connection with the utility model double shield high speed Device docks.

Figure 19 is the structural schematic diagram of a wherein frame assembly for high speed plug connector shown in Figure 18.

Figure 20 is that high speed docking connector and high speed plug connector shown in Figure 18 shown in Fig. 1 dock schematic diagram.

The reference numerals are as follows in above-mentioned attached drawing：

1 shell 10 of high speed docking connector

11 bottom wall 12 of roof

13 cavity 14 of side wall

15 horizontal channel 16 of vertical wall

20 upstanding wall 21 of positioning seat

22 transverse direction ground slot 23 of Vertical Channel

30 insulator 31 of frame assembly

The heat dissipation conduit 311 of fixing groove 310

Signal terminal 32,32 ', 32a, 32b, 32c

320 conductive tail 321 of electrically conducting contact

First shielding part, 33 first vertical main part 330

331 dentation inserted sheet 332 of fixed arm

First trepanning, 333 first tabs 334

34 second vertical main part 340 of secondary shielding part

341 lockhole 342 of resilient panel

Second trepanning, 343 second tabs 344

Half portion 35,36 ground strips 40

41 U-shaped fixed part 42 of crossbeam

420 arm 422 of base portion

It is grounded 43 fixator 50 of tail portion

51 vertical fixinig plate 52 of horizontal fixinig plate

9 jack frame component 90 of high speed plug connector

Shielding part 91,92.

Specific implementation mode

The explanation of following embodiment is to refer to additional schema, to illustrate the specific reality that the utility model can be used to implement Apply example.The direction term that the utility model is previously mentioned, such as "upper", "lower", "front", "rear", "left", "right", "top", "bottom" Deng being only the direction with reference to annexed drawings.Therefore, the direction term used be illustrate and understand the utility model, rather than To limit the utility model.

It please refers to shown in Fig. 1, Fig. 2, Fig. 3, the utility model double shield high speed docking connector 1 is referred to herein as high speed and inserts Base connector can be parallelly mounted to circuit board（It is not shown）On.The high speed docking connector 1 includes a longitudinal shell 10, a longitudinal positioning seat 20 and row's frame assembly 30.

As shown in Fig. 2, the shell 10 have the shorter bottom wall 12 of a longer roof 11, one, two side 13 and one by Cavity 14 made of the roof 11, the bottom wall 12 and the two side 13 surround.In the present embodiment, which is a die-cast metal Shell is capable of providing the effect of electromagnetic shielding.

As shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, the shell 10 is also with the parallel ladder-like vertical wall 15 of a row and several Horizontal channel 16 that is a being separated by these vertical walls 15 and being connected with the cavity 14.It is outer that these vertical walls 15 are located at this 10 rear of shell and perpendicular to the roof 11.

As shown in Fig. 2, Fig. 7, Fig. 8, which is in longitudinal, with the parallel ladder-like upstanding wall 21 of a row, And several are separated by these upstanding walls 21 and across the Vertical Channel 22 of 20 bottom of positioning seat（Label is shown in Fig. 8）. In the present embodiment, it is respectively formed between every two upstanding wall 21 there are three Vertical Channel 22.

As shown in figure 9, the bottom position corresponding to each upstanding wall 21 on the bottom surface of the positioning seat 20 is each formed with one Lateral ground slot 23.

As shown in Figure 10, Figure 11, Figure 13, Figure 14, which there is an insulator 31, two to arrange by the insulator 31 It supports and the signal terminal 32, one for being arranged to differential pair is installed on the first shielding part 33, the Yi Jiyi of 31 side of insulator The secondary shielding part 34 that is installed on 31 other side of insulator and can be connected with first shielding part 33.It should be noted that " be connected " herein refers to that first shielding part 33 forms a grounding connection with the secondary shielding part 34, and realizes " being connected " Mode include but not limited to because the two contacts the connection to be formed, and because the two is fixed together the connection to be formed.Below can To one of which connection type（Such as it is fixedly connected）It describes in detail.

As shown in figure 11, which has at least one fixing groove 310 through 31 left and right sides of insulator.This is solid Slot 310 is determined between two adjacent differential pair signal terminals 32.In addition, being both provided at least in the both sides of the insulator 31 One heat dissipation conduit 311.

In the present embodiment, as shown in figure 12, which be combined by two half-unit 35,36, wherein half Portion 35 supports a column signal terminal 32, another half portion 36 to support another column signal terminal 32 ', the two half portions 35,36 are combined So that this two column signals terminal 32,32 ' constitutes multiple differential pair signal terminal 32a, 32b, 32c.The fixing groove 310 through this two A half portion 35,36.

The structure of the insulator 31 is now discussed in detail by taking a wherein half portion 35 as an example.As shown in figure 12, which has Multiple fixing grooves 310, and all have at least one fixing groove 310 between every two adjacent signal terminals 32 of the half portion 35. The shape of these fixing grooves 310 simultaneously differs, such as a top fixing groove 310 is L-shaped, and a lower section fixing groove 310 is in a word Type.When the two half portions 35,36 are combined into an insulator 31, the corresponding fixing groove 310 of this two half portion 35,36 being capable of phase It is intercommunicated.

As shown in Figure 11, Figure 12, each signal terminal 32 all has a conductive contact for being exposed to 31 front end of insulator The conductive tail 321 on 31 bottom edge of insulator is stretched out in portion 320 and one.In the present embodiment, there are six the frame assembly 30 tools Signal terminal 32 is arranged to three differential pair signal terminals 32a, 32b, 32c.

As shown in Figure 11, Figure 14, which has one first vertical main part 330 and at least one vertically In the fixed arm 331 of the first vertical main part 330.Wherein the first vertical main part 330 can be posted by the insulator 31 One side, which then stretches into the fixing groove 310 of the insulator 31, to prepare to coordinate with the secondary shielding part 34. It is directed towards the 31 vertical bending of insulator in the fixed arm 331 to form, and an at least dentation inserted sheet 332 is formed in its front end. In the present embodiment, there are three the fixed arms 331 perpendicular to the first vertical main part 330 for first shielding part 33 tool, and Dentation inserted sheet 332 there are two being formed in 331 front end of a part of fixed arm.Certainly, in other embodiments, the fixed arm 331 It can be needed and be changed according to structure with the quantity of the dentation inserted sheet 332.

As shown in Figure 11, Figure 14, which there is one second vertical main part 340, at least one to be formed in this Resilient panel 341 and at least one on second vertical main part 340 are formed in the lockhole 342 in the resilient panel 341.Its In the second vertical main part 340 can be posted by the another side of the insulator 31, which is directed at corresponding fixation Slot 310, the front end to prepare the fixed arm 331 for receiving first shielding part 33 are inserted into the lockhole 342.In particular, please be same When referring to Fig.1 1 with Figure 15 shown in, the dentation inserted sheet 332 of first shielding part 33 is inserted into the lockhole of the secondary shielding part 34 In 342, so that first shielding part 33 and the secondary shielding part 34 be linked together so that first shielding part 33 and this Two shielding parts 34 form an entirety, while the two is firmly fixed on the insulator 31.In addition, the resilient panel 341 protrude towards the direction of the insulator 31, to ensure that the dentation inserted sheet 332 will not be loosened with the lockhole 342 after lock. In the present embodiment, which has multiple resilient panels 341 and multiple lockholes 342.As it can be seen that the lockhole 342 quantity can be depending on practical structures.

Again in detail, which is installed on the wherein one side of a half portion 35, and its first main body Portion 330 is far from another half portion 36.The secondary shielding part 34 is installed on the one side of another half portion 36, and its second main part 340 far from a wherein half portion 35.

In addition, as shown in figure 11, which also has at least one to be formed on the first vertical main part 330 The first trepanning 333, and the secondary shielding part 34 also at least one be formed on the second vertical main part 340 second open Hole 343, first trepanning 333 correspond to the heat dissipation conduit 311 of the insulator 31 with second trepanning 343, this is enabled to dissipate Heat channel road 311 keeps clear.

As shown in figure 11, first shielding part 33 is also at least one towards first of the direction bending far from the insulator 31 Tabs 334, can be with adjacent frame component（It does not indicate）Secondary shielding part contact, to formed a complete shield.Together Sample, as shown in figure 14, the secondary shielding part 34 is also at least one towards the second folding of the direction bending far from the insulator 31 Piece 344 can be contacted with the first shielding part of another adjacent frame component, to constitute a complete shielding construction.

Certainly, some and the insulator 31 can also be set on first shielding part 33 or/and the secondary shielding part 34 Matched structure, to enhance the binding force of the two shielding parts 33,34 and the insulator 31.

In assembling, as shown in figure 11, which is installed on 31 side of insulator, each fixed arm 331 It stretches into the corresponding fixing groove 310 of the insulator 31, adjacent two differential pair positioned at 310 both sides of fixing groove can be isolated Signal terminal 32, to reduce the crosstalk between adjacent two differential pair signals terminal 32；The secondary shielding part 34 is installed on this absolutely The other side of edge body 31, and the dentation inserted sheet 332 of first shielding part 33 is inserted into the lockhole 342 of the secondary shielding part 34 It is interior, to which first shielding part 33 and the secondary shielding part 34 are fixed on the insulator 31.

In assembling, shown in Fig. 2, Fig. 3, Figure 10, the electrically conducting contact 320 of each frame assembly 30 is certainly The rear of the shell 10 enters across corresponding horizontal channel 16 in the cavity 14 of the shell 10（As shown in Figure 1）, with standard It is standby to be connected to each other with a high speed plug connector.The conductive tail 321 of the frame assembly 30 is passed through from the top of the positioning seat 20 Corresponding Vertical Channel 22, and the bottom surface of the positioning seat 20 is stretched out, as shown in figure 17.At this point, these ranks of the positioning seat 20 Scalariform upstanding wall 21 is matched with the vertical wall 15 of the stepped arrangement of the shell 10, these frame assemblies 30 are surrounded Come, to form an entirety.

As shown in Figures 2 and 3, which further includes having a row mountain font ground strip 40.

As shown in figure 16, each ground strip 40 is in mountain font.There is the ground strip 40 41, three, a crossbeam to be convexly equipped in this U-shaped fixed part 42 on crossbeam 41 and at least one ground connection tail portion 43 being convexly equipped on a wherein fixed part.In the present embodiment In, which is in vertical plate-like structure, and each U-shaped fixed part 42 all has a base portion 420 and two are symmetrically arranged in this 420 both sides of base portion and perpendicular to the arm of the base portion 420 422.In the present embodiment, which is in needle-like, from The lower edge of the base portion 420 extends downwardly.In a wherein embodiment, the ground strip 40 tool is there are three tail portion 43 is grounded, respectively It is formed on these three U-shaped fixed parts 42.

In assembling, shown in Fig. 9 and Figure 17, each ground strip 40 is mounted on 20 bottom surface of positioning seat In corresponding transverse direction ground slot 23, and the alignment of each U-shaped fixed part 42 is located at the differential pair letter in the transverse direction ground slot 23 Number terminal 32.The bottom surface of the positioning seat 20 is stretched out in these three ground connection tail portions 43.

In addition, as shown in Figure 2 and Figure 3, the utility model double shield high speed docking connector 1 further includes having a strip solid Determine device 50.There is the fixator 50 orthogonal horizontal fixinig plate 51 and vertical fixinig plate 52, the horizontal fixinig plate 51 to fix To the roof 11 of the shell, and the vertical fixinig plate 52 is then fixed in the rear surface of the positioning seat 20.

It please refers to shown in Figure 18, the utility model additionally provides another double shield high speed docking connector, is claimed herein For high speed plug connector 9.As shown in figure 19, two screens are set on the jack frame component 90 of the high speed plug connector 9 Shield 91,92, so as to effectively reduce crosstalk of the adjacent differential between signal terminal.

As shown in figure 20, which can be with above-mentioned high speed receptacle connector（Double shield high speed is in succession Connect device 1）It is connected to each other.

In conclusion the utility model double shield high speed docking connector 1 is connected by being arranged on each frame assembly 30 The double shield structure for connecing or being fixed together, such as the first shielding part 33 and secondary shielding part 34, can not only reduce adjacent difference Divide the crosstalk between signal terminal 32, can also effectively reduce the signal interference between adjacent frame component 30.In addition, passing through Ground strip 40 is set, crosstalk can be further decreased.

Claims (10)

1. a kind of double shield high speed docking connector, it is characterised in that：Include a longitudinal die-cast metal shell, a longitudinal Positioning seat and row's frame assembly；

Made of the shell is surrounded with a roof, a bottom wall, two side and one by the roof, the bottom wall and the two side Cavity；The shell also has a ranking in the shell rear and perpendicular to the parallel ladder-like vertical wall of the roof, Yi Jiruo Dry horizontal channel that is being separated by these vertical walls and being connected with the cavity；

There is the positioning seat the parallel ladder-like upstanding wall of a row and several to be separated by these upstanding walls and be determined across this The Vertical Channel of position seat bottom；

The frame assembly has an insulator, two row by the dielectric support and is arranged to the signal terminal of differential pair, a peace It is installed on the insulator other side loaded on the first shielding part of the insulator side and one and can be with the first shielding part phase The secondary shielding part of connection；

Wherein each signal terminal all have the electrically conducting contact that one is exposed to the insulator front end and one stretch out the insulator The conductive tail on bottom edge；Wherein the electrically conducting contact enters across corresponding horizontal channel in the cavity of the shell, and is somebody's turn to do Conductive tail then stretches out the bottom surface of the positioning seat across corresponding Vertical Channel.

2. double shield high speed docking connector as described in claim 1, it is characterised in that：The insulator has at least consistent Wear the insulator left and right sides and the fixing groove between adjacent two differential pair signals terminal；

First shielding part has the first vertical main part of a side for being posted by the insulator and at least one can extend into Fixed arm in the fixing groove of the insulator；And

The secondary shielding part have the second vertical main part of the other side for being posted by the insulator, at least one be formed in this Resilient panel and at least one on two vertical main parts are formed in the resilient panel and can be directed at the lock of the fixing groove Hole；The front end of the wherein fixed arm of first shielding part is inserted into the lockhole of the secondary shielding part so that first shielding part with The secondary shielding part is connected and is fixed on together on the insulator.

3. double shield high speed docking connector as claimed in claim 2, it is characterised in that：The insulator is by two half-unit It is combined into, wherein a half portion supports a column signal terminal, another half portion that another column signal terminal, the two half portions is supported mutually to tie It closes so that this two column signals terminal constitutes multiple differential pair signal terminals；The fixing groove runs through the two half portions, and every At least one fixing groove is all had between every two adjacent signal terminals of one half portion.

4. double shield high speed docking connector as claimed in claim 2, it is characterised in that：The fixed arm court of first shielding part It is formed to the vertical bending of the insulator, and an at least dentation inserted sheet is formed in the front end of the fixed arm；And

The resilient panel of the secondary shielding part is protruded towards the direction of the insulator.

5. double shield high speed docking connector as claimed in claim 2, it is characterised in that：The both sides of the insulator are respectively arranged There is at least one heat dissipation conduit；

First shielding part is also formed in the first trepanning on the first vertical main part at least one；And

The secondary shielding part is also formed in the second trepanning on the second vertical main part at least one；

Wherein first trepanning both corresponds to the heat dissipation conduit of the insulator with second trepanning.

6. double shield high speed docking connector as described in claim 1, it is characterised in that：First shielding part also has at least One towards far from the insulator direction bending the first tabs, to be contacted with the secondary shielding part of adjacent frame component；And

The secondary shielding part also at least one towards far from the insulator direction bending the second tabs, with another adjacent frame First shielding part of frame component contacts.

7. double shield high speed docking connector as described in claim 1, it is characterised in that：The double shield high speed docking connector Further include having a row mountain font ground strip；And the bottom position corresponding to each upstanding wall on the bottom surface of the positioning seat is respectively formed There is a lateral ground slot；Each ground strip is mounted in corresponding lateral ground slot.

8. double shield high speed docking connector as claimed in claim 7, it is characterised in that：Each ground strip is in mountain font； The ground strip is formed in these U-shaped fixed parts with a crossbeam, three U-shaped fixed parts being convexly equipped on the crossbeam and three On ground connection tail portion.

9. double shield high speed docking connector as claimed in claim 8, it is characterised in that：Each U-shaped fixed part all has one Base portion and two are symmetrically arranged in the base portion both sides and the arm perpendicular to the base portion.

10. double shield high speed docking connector as described in claim 1, it is characterised in that：Double shield high speed docking connection Device further includes having a strip fixator, which has orthogonal horizontal fixinig plate and vertical fixinig plate, the level Fixinig plate is fixed on the roof of the shell, and the vertical fixinig plate is then fixed in the rear surface of the positioning seat.