CN2831476Y

CN2831476Y - Modular connector

Info

Publication number: CN2831476Y
Application number: CNU2005200747463U
Authority: CN
Inventors: 李铭智
Original assignee: Foxconn Kunshan Computer Connector Co Ltd; Hon Hai Precision Industry Co Ltd
Current assignee: Foxconn Kunshan Computer Connector Co Ltd; Hon Hai Precision Industry Co Ltd
Priority date: 2005-08-17
Filing date: 2005-08-17
Publication date: 2006-10-25
Anticipated expiration: 2015-08-17

Abstract

The utility model relates to a modular group connector used for electrically connecting a modular plug with a main circuit board. The modular group connector comprises an insulating shell and a plurality of connecting modular groups. The connecting modular group comprises a plurality of butt terminals, a first circuit board, two second circuit boards and a plurality of signal application terminals. The butt terminal is electrically connected with the first circuit board and is provided with a contact part which extends into the corresponding interface of the insulating shell. The first circuit board is arranged parallel to a matching surface. The two second circuit boards are electrically connected with the first circuit board and vertically arranged and are perpendicular to the matching surface. A plurality of application terminals are electrically connected with the corresponding second circuit board. The butt terminal, the first circuit board, the corresponding second circuit board and the corresponding signal application terminal form a signal channel, wherein a capacitor is arranged on the first circuit board. The first group of butt terminals and the second group of butt terminals are electrically connected with the capacitor. Through the arrangement, the cost can be reduced and the manufacturing process can be simplified.

Description

Module connector

[technical field]

The utility model relates to a kind of module connector, especially relates to a kind of module connector that is used for the high speed data transfer occasion, has the modularity electronic component.

[background technology]

The modularity connector is RJ45 series especially, often adopts Signal Processing Element such as electric capacity, resistance and/or magnetic coil etc., solves problems such as solving cross-talk (Crosstalk), electromagnetic interference (EMI).Xiang Guan prior art can announce the 5th, 736 with reference to United States Patent (USP) therewith, and No. 910, it has disclosed a kind of insulation shell that comprises, the butt joint terminal is used terminal and made the butt joint terminal and the internal circuit board of application corresponding terminal electric connection.This internal circuit board is provided with some Signal Processing Elements, comprises some magnetic coils (toroidalcoil), some resistance and an electric capacity.One end ground connection of this electric capacity, the other end then electrically connect with described some resistance, and this kind technology is known by the common skill personage of this area.

In the high speed data transfer occasion, as local area network (LAN), module connector often adopts the structure of stack more effectively to use limited space, its last craft port with upper and lower settings reaches craft port down, should go up the respectively corresponding connector of craft port and following craft port, each connector and a plug module carry out the signal transmission.

In order to detect connector to promote the efficient in the manufacture process in assembling, manufacture process, the module connector of stack often carries out modularization with two connectors of deploying up and down, and two shared electric capacity of connector.Xiang Guan prior art can be with reference to United States Patent (USP) the 6th, 655 therewith, No. 988.

This patent has disclosed a kind of module connector and has had insulation shell and the some link blocks that is provided with some craft port, and each link block comprises that butt end submodule group and following butt end submodule group, two internal circuit board and two groups are in order to be installed in the application terminal on the main circuit board.Each internal circuit board is provided with some magnetic coils, and vertically be built up in the module connector and perpendicular to the mating surface of insulation shell, upper and lower butt joint terminal is used terminal by corresponding internal circuit board and respective sets and is electrically connected, thereby module plug and main circuit board are electrically connected.The described butt end submodule group that goes up is Z-shaped with following butt end submodule group, on the back insulator of last butt end submodule group an electric capacity is installed, one end of this electric capacity and up and down butt end submodule group all electrically connect, the other end then electrically connects with ground connection with the shell that covers of module connector.This electric capacity docks terminal respectively and up and down and covers the shell electric connection because some hardwares must be installed on the insulator in the back, and these hardwares need additionally provide the mould manufacturing, and also more complicated of the assembling of electric capacity.

Therefore, above-mentioned existing module connector obviously has defective and exists, and can be improved.

[utility model content]

Main purpose of the present utility model is to provide a kind of module connector that reduces cost and be beneficial to manufacturing.

For realizing above goal of the invention, the utility model provides a kind of module connector, with so that module plug and main circuit board electrically connect, a kind of module connector, comprise: insulation shell and connection module, described insulation shell has mating surface, and described mating surface is concaved with at least two interfaces of deploying up and down, described connection module is installed in the insulation shell, comprises some butt joint terminals, a first circuit board, two second circuit boards and some application terminals; Each butt joint terminal comprises contact site, and described some butt joint terminals comprise first group of butt joint terminal and second group of butt joint terminal, and described contact site extends into respectively in the corresponding interface; Described first circuit board is parallel to the mating surface setting; Described two second circuit boards and this first circuit board electrically connect, and vertically are provided with and perpendicular to described mating surface; Described application terminal comprises first group of signal application terminal and second group of signal application terminal, second circuit board with correspondence electrically connects respectively, thereby described first group of butt joint terminal, first circuit board, a corresponding second circuit board and first group of signal application terminal form first group of signal path, and second group of butt joint terminal, the first terminal circuit plate, another corresponding second circuit board and second group of signal application terminal form second group of signal path; It is characterized in that: described first circuit board is provided with an electric capacity, and described first group of butt joint terminal and second group of butt joint terminal all electrically connect with this electric capacity.

Compared with prior art, the shared electric capacity of a pair of connector of the utility model module connector, cost reduces; The electric capacity that this is shared is arranged on the first circuit board, and prior art can be simplified processing procedure relatively.

[description of drawings]

Below in conjunction with accompanying drawing,, will make the technical solution of the utility model and other beneficial effects apparent by embodiment of the present utility model is described in detail.

Fig. 1 is the three-dimensional combination figure of the utility model first execution mode module connector.

Fig. 2 is the part exploded view of the utility model first execution mode module connector.

Fig. 3 is the stereogram of the insulation shell of the utility model first execution mode module connector.

Fig. 4 is the stereogram of another angle of insulation shell of the utility model first execution mode module connector.

Fig. 5 is the three-dimensional combination figure of the connection module of the utility model first execution mode module connector.

Fig. 6 is the three-dimensional combination figure of the butt end submodule group of the utility model first execution mode module connector.

Fig. 7 is the three-dimensional combination figure of butt end another angle of submodule group of the utility model first execution mode module connector.

Fig. 8 is the three-dimensional combination figure of the another angle of butt end submodule group of the utility model first execution mode module connector.

Fig. 9 is the front view of the utility model first execution mode module connector first circuit board.

Figure 10 is the unit assembly drawing after the utility model first execution mode module connector conversion terminal is assembled into second circuit board.

Figure 11 is another angle part constitutional diagram after the utility model first execution mode module connector conversion terminal is assembled into second circuit board.

Figure 12 is the three-dimensional combination figure of the application end submodule group of the utility model first execution mode module connector.

Figure 13 is the unit assembly drawing after some connection modules of the utility model first execution mode module connector are assembled into insulation shell.

Figure 14 is the partial enlarged drawing of the utility model first execution mode module connector Fig. 1.

Figure 15 is the three-dimensional combination figure of the utility model second execution mode module connector.

Figure 16 is the butt end submodule group of the utility model second execution mode module connector and the unit assembly drawing that first circuit board fits together.

Figure 17 is the cutaway view of the utility model second execution mode module connector along A-A line among Figure 15.

[embodiment]

The utility model provides a kind of modularity connector, usually in order to be installed on the main circuit board (not shown), so that module plug (not shown) carries out the signal transmission by modularity connector and the described main circuit board that the utility model provides.Fig. 1 is first execution mode of the present utility model to structure shown in Figure 14, and Figure 15 to Figure 17 is second execution mode of the present utility model.

Please refer to Fig. 1, module connector 100 comprises two rows connector (indicate), and each connector module plug of can pegging graft makes this module plug by this connector and electrically connect with main circuit board.In the present embodiment, 2 * 6 connectors are arranged, 12 the module plugs of can pegging graft simultaneously, but the utility model is not limited thereto, it can have the deploying mode of 2 * N connector (N＞=1), and this is the state of the art, is not described in more detail at this.

Please refer to Fig. 2, module connector 100 comprises insulation shell 1, some connection modules 2 and shielding casing 3.

Please refer to Fig. 3, Fig. 4, the profile of insulation shell 1 constitutes a cuboid, and it has a perisporium 11, and this perisporium 11 forms front end face 11a, goes up end face 11b, installed surface 11c and left and right side 11d.This front end face 11a is concaved with some interfaces 10, each interface 10 corresponding connector, and its certain depth that extends back is to allow the insertion of module plug.Described interface 10 apportions two rows, it is right that the shape mirror image deploying of the interface 10 of per two upper and lower settings constitutes a docking port, thus each interface is to comprising interface 10a and lower interface 10b.Described left and right side 11d intersects vertically with the and arranged on left and right sides limit of front end face 11a respectively, and the length that extends back.The upper side edge of last end face 11b and front end face 11a, the upper side edge of left and right side 11d intersect vertically and extend back.As shown in Figure 3, the Hou of last end face 11b end forms a frame mouth (not indicating), but on fore-and-aft direction, the length of last end face 11b place perisporium 11 is greater than the extension degree of depth of interface 10.The lower side of above-mentioned installed surface 11c and front end face 11a, the lower side of left and right side 11d intersect vertically and extend back.The front end of last end face 11b and installed surface 11c is concaved with some buttons towards the corresponding interface 10 respectively and holds mouth 110, and each button is held mouthful 110 corresponding interfaces 10 and is communicated with this corresponding interface 10.The rear end of last end face 11b place perisporium is concaved with a skewed slot 112 on the position of the every docking port of correspondence, the interior lower surface of described skewed slot 112 is inclined-planes.The rear end of installed surface 11c forms some openings 111, and each opening 111 corresponding interface is right, promptly corresponding a pair of connector.

Insulation shell 1 is provided with a dividing plate 12, and this dividing plate 12 is parallel with front end face 11a, and with last end face 11b, installed

surface

11c and 11d place, two sides perisporium 11 intersects.Described interface 10 is positioned between this dividing plate 12 and front end face 11a, and the front surface of dividing plate 12 is exposed to each interface 10 towards interface 10 and its relevant position.The relevant position of this dividing plate 12 corresponding each interface 10 be provided with some slits 120 and be communicated with described slit 120 wear groove 121.The slit 120 of each interface 10 and wear groove 121 and be and be symmetrical arranged.This wears groove 121 in order to accommodate the butt end submodule group 4 that connects on the module 2, slit 120 will be described in detail about the structure that connects module 2 and butt end submodule group 4 below in order to the end of the contact site 411b that locatees the butt joint terminal 411 on the described butt end submodule group 4.

Insulation shell 1 is provided with some risers that are equally spaced 13, and described riser 13 is parallel to side 11d and perpendicular to front end face 11a.Described riser 13 roughly becomes " L " shape, and its front side end is connected with dividing plate 12, and the lower side is connected with installed surface 11c place perisporium, but with last end face 11b place perisporium 11 spacing is arranged.Above-mentioned end face 11b, installed

surface

11c, 11d place, left and right side perisporium, dividing plate 12 and the described riser 13 gone up formed some receiving spaces 14.Thereby the corresponding every pair of connector of insulation shell 1 is provided with a docking port 10 and connects module 2 with a grafting module plug and a receiving space 14 with assembling, and described docking port 10 and corresponding receiving space 14 are communicated with.

A guide bar 15 is stretched out at corresponding each receiving space 14 place in dividing plate 12 rear surfaces, and this guide bar 15 is positioned at the bottom of receiving space 14, can guide the assembling that connects module 2, can play the role of positioning.

In the present embodiment, dividing plate 12 near on end face 11b place be provided with some through holes 122, described through hole 122 extends to the front end face 11a of insulation shell 1, in order to accommodate display lamp 53, this display lamp 53 is in order to show the user mode of corresponding connector.

As shown in Figure 3, the pars intermedia of insulation shell 1 is provided with an intermediate plate 16, and this intermediate plate 16 is positioned at 10 of docking ports, is parallel to the described end face 11b that goes up, and it comprises fin 160 and is positioned at groove 161 between this fin 160 and dividing plate.The both sides up and down of this fin 160 form two stairstepping buttons respectively at corresponding each interface 10 place and hold groove 162.This groove 161 links to each other with the groove 121 of wearing on the dividing plate 12.

Please refer to Fig. 1 and Fig. 2, shielding casing 3 is made by metal material, is the rectangular-shaped of hollow, and its front end face (indicating) is provided with some openings 30 of accommodating, and the interface 10 of described shape, size and location and insulation shell 1 of accommodating opening 30 is roughly the same.The roof of this shielding casing 3 is provided with the shell fragment 31 of some downward extensions, and described shell fragment 31 extends in the corresponding receiving space 14.This shielding casing 3 also is provided with some grounding legs 32, and described grounding leg 32 extends beyond the bottom surface of shielding casing 3, in order to be communicated with ground path on the main circuit board.After the assembling, shielding casing 3 pastes on the perisporium 10 of insulation shell 1.Described shell fragment 31 connects with the ground path that is connected module 2, makes connection module 2 pass through on the shielding casing 3 and the connection of the ground path on the main circuit board, connects module 2 ground connection thereby make.

As depicted in figs. 1 and 2, some connection modules 2 are installed on the insulation shell 1, its corresponding a pair of connector of deploying up and down.The front end that connects module 2 extends in the corresponding interface 10, and the rear end then is housed in the receiving space 14.Because each structure that connects module 2 is identical, only is elaborated as representative with one of them here.

Shown in Figure 5 is a stereogram that connects module 2, and this connection module 2 comprises two butt end submodule groups 4, first circuit board 5, two second circuit boards 6 and application end submodule groups 7.Described butt end submodule group 4 contacts in order to the module plug with insertion, thereby described application end submodule group 7 makes module plug and main circuit board carry out the signal transmission by butt end submodule group 4, first circuit board 5, a corresponding second circuit board 6 and the application end submodule group 7 of correspondence in order to electrically connect with main circuit board.Described first circuit board 5 electrically connects with second circuit board 6 by plurality of adapter coupling terminal 8.

Please refer to Fig. 5, described two butt end submodule group 4 structures are identical, be and be installed in symmetrically up and down on the first circuit board 5, only are elaborated with one of them butt end submodule group 4 at this.

Fig. 6 to Fig. 8 is the stereogram that butt end submodule group 4 is seen from different perspectives.Butt end submodule group 4 comprises insulator 40 and the butt joint terminal 41 that is installed on this insulator 40.This insulator 40 comprises leading section 401 and rearward end 402, and this leading section 401 generally is tabular, is provided with plurality of terminals groove (not indicating) so that butt joint terminal 41 to be installed on the direction perpendicular to insulation shell 1 front end face.The both sides of this leading section 401 are respectively equipped with button gripping arm 403, and the front end of this button gripping arm 403 extends beyond the front end face (not indicating) of leading section 401, and is provided with a hook-type holding part 404.Rearward end 402 is connected with this leading section 401, and its upper surface 402a exceeds the upper surface of this leading section 401, and lower surface 402b exceeds the lower surface of leading section 401.This rearward end 402 has a supporting surface 402c, and this supporting surface 402c is concaved with some accepting grooves (not indicating), and described accepting groove is communicated with aforementioned terminal groove.Convex with combined block (not indicating) on this supporting surface 402c.This rearward end 402 is provided with one and is parallel to this supporting surface 402c but towards opposite locating surface 405, in order to dividing plate 12 carry out against.

Butt joint terminal 41 comprises main part (not shown), the plug contact site 41a that oppositely extends from an end of this main part bending back and from the other end of the main part installation portion 41b that extends of bending upwards.Extend in the terminal groove of this main part on leading section 401, be fixed on the insulator 40 will dock terminal 41.After finishing assembling, described plug contact site 41a extends in the corresponding interface 10, with pin connector on terminal contact.Installation portion 41b is perpendicular to aforementioned body portion, thereby mode that can mounted on surface (SurfaceMounted Technology) is welded on the first circuit board 5.As Fig. 8, the surface of this installation portion 41b is exposed to outside the rearward end 402, roughly with supporting surface 402c coplane.The end of this installation portion 41b exceeds the upper surface 402a of rearward end 402.

Please refer to Fig. 2 and Fig. 5, first circuit board 5 has towards the first surface 5a of interface 10 with towards the second surface 5b of receiving space 14.The supporting surface 402c of described butt end submodule group 4 is resisted against on this first surface 5a, installation portion 41b is welded on this first surface 5a, aforementioned combined block is fixedly installed on the combined hole (not indicating) on first circuit board 5 relevant positions, thereby first circuit board 5 and butt end submodule group 4 fit together reliably.

Please refer to Fig. 9, the first surface 5a of first circuit board 5 is provided with two row's contact chips 51, and the installation portion 41b of butt joint terminal 41 is welded on the corresponding contact chip 51, takes this to dock terminal 41 and first circuit board 5 electric connections.The left and right sides of first circuit board 5 keep to the side the edge place be provided with respectively two ranked first the switching hole 52, every row has 11 first holes 52 of transferring, and eight signal converting hole 52a that wherein whenever ranked first in the switching hole 52 arrange contact chip 51 connections by the circuit and the above-mentioned correspondence of first circuit board 5.

Please join Fig. 5 and in conjunction with Fig. 9, the both sides on first circuit board 5 tops are fixed with a display lamp 53 respectively, each display lamp 53 has two pins 531, and two pins 531 of this each display lamp 53 and first circuit board 5 electrically connect and be communicated with respectively by the circuit on the first circuit board 5 532 and corresponding two light sources switching hole 52b that ranked first in the switching hole 52.In the present embodiment, the corresponding display lamp 53 of connector, however also can set up display lamp 53, make corresponding two display lamps 53 of each connector, in some occasion, also display lamp 53 can be set.

As shown in Figure 9, the bottom of first circuit board 5 is provided with inverted "convex" shape assembly hole 501, this assembly hole 501 be used for insulation shell 1 on guide bar 15 and the related device on the application end submodule group 7 cooperate, guide and be positioned in the receiving space 14 of insulation shell 1 will connect module 2 assemblings.Extend downwards and be provided with down location division 502 at the place in the middle of the lower end of described first circuit board 5, locates in the middle of the upper end to extend upward to be provided with a lug boss 503 and to be beneficial to and being connected of shell fragment 31.

Please refer to Fig. 5 and in conjunction with shown in Figure 9, be provided with an electric capacity 54 between contact chip 51 and the display lamp 53, in the present embodiment, the numerical value of this electric capacity 54 is 0.001 μ F, 2.5KV.One end of electric capacity 54 is by the circuit on the first circuit board 5 and whenever ranked first the ground connection switching hole 52c electrical communication of switching in the hole 52, and the other end then is communicated with ground area 56, and described ground area 56 will be connected with the shell fragment 31 on the shielding casing 3.

Please refer to Fig. 5, two second circuit boards 6 that connect module 2 are arranged in parallel, and structure is identical, this only to wherein one be described in detail.

Please in conjunction with Fig. 5 with reference to Figure 10, Figure 11, the front end of second circuit board 6 is provided with one by middle place and ranked second switching hole (indicating), a conversion terminal 8 is installed in each second switching hole.Described conversion terminal 8 is L-shaped, and the one end is fixed on the second corresponding switching hole and electrically connects with it, and the other end then is located on the correspondence first switching hole 52 of first circuit board 5 and electrically connects with it.The ground connection conversion terminal 8c that conversion terminal 8 comprises the signal converting terminal 8a that electrically connects with signal converting hole 52a, electrically connects light source conversion terminal 8b and electrically connect with ground connection switching hole 52c with light source switching hole 52b.Therefore, butt joint terminal 41 is connected on the corresponding second circuit board 6 by the signal converting terminal 8a in first circuit board 5, the conversion terminal 8.Display lamp 53 is connected on the corresponding second circuit board 6 by the light source conversion terminal 8b in first circuit board 5, the conversion terminal 8.In this process, can carry out suitable deploying to the circuit on the first circuit board 5 and reduce signal cross-talk (Crosstalk).

Second circuit board 6 comprises that towards the inner surface 6a of another second circuit board 6 and outer surface 6b if this inner surface 6a is provided with magnetic coil 61.Second circuit board 6 is provided with circuit so that signal converting terminal 8a is connected with corresponding magnetic coil 61.Outer surface 6b also is provided with electronic component, yet described electronic component also can be arranged on the inner surface 6a of second circuit board 6.In the present embodiment, described electronic component comprises four resistance 62, and the numerical value of each resistance 62 is 75 ohm, and second circuit board 6 is provided with the centre cap electric connection of circuit (not shown) with each resistance 62 and corresponding magnetic coil 61.Resistance 62 on every second circuit board 6 is communicated with by the circuit (not shown) on the place second circuit board 6, corresponding ground connection conversion terminal 8c and an end of electric capacity 54, thus make should about the shared electric capacity 54 of connector, and then reduce cost.

The lower end of second circuit board 6 is provided with two row's connecting holes 63, and in the present embodiment, described connecting hole 63 comprises ten signal connecting hole 63a, two light source connecting hole 63b and two power supply connecting hole 63c.Wherein, signal connecting hole 63a, power supply connecting hole 63c electrically connect by circuit on the second circuit board 6 and corresponding magnetic coil 61 respectively, light source connecting hole 63b then electrically connects with the light source conversion terminal 8b of correspondence, and two connecting holes of the residue between two power supply connecting hole 63c 63 do not use.

Please refer to Figure 12, application end submodule group 7 comprises positioning body 70 and two groups of application terminals 71 that are fixed on this positioning body 70.Described positioning body 70 is the lengthwise shape, comprises main part 72 and holds the back location wall 73 that vertically grows from the Hou of this main part 72.Described main part 72 is provided with the front bulkhead 72a parallel with location, this back wall 73 and two sides location wall 72b that intersect vertically with this front bulkhead 72a, location, back wall 73, be equipped with two posts on these two side location wall 72b and fasten 721, the second circuit board 6 of correspondence can be positioned.Convex with two projections 722 on the described front bulkhead 73a.The left and right sides width of above-mentioned back location wall 73 is greater than described main part 72, thereby the rear end downside of second circuit board 6 is resisted against on the wall 73 of location, back.Main part 72 also is provided with two midfeather 72c between two side location wall 72b, described midfeather 72c is stepped, comprise rank portion (not indicating) and following rank portions (not indicating), form guide channel 75 between the following rank portion of described two midfeather 72c, the described exponent part of going up does not extend a hook portion 76 forward, these two hook portions, 76 back-to-back settings.Described application terminal 71 is generally L-shaped, it is fixed on the positioning body 70, one end extends beyond the lower surface (not indicating) of positioning body 70 to be connected with main circuit board, an other end extend beyond corresponding side location wall 72b with corresponding second circuit board 6 on connecting hole 63 connect, wherein, with signal connecting hole 63a connectionist be that signal application terminal and light source connecting hole 63b connectionist are that light source applications terminal and power supply connecting hole 63c connectionist are the application of power terminal.

As shown in Figure 5, after the assembling, the inner surface 6a lower end side that connects the second circuit board 6 of module 2 is resisted against on the corresponding side location wall 72b, post is fastened in 721 location holes (not indicating) that are arranged on corresponding second circuit board 6 relevant positions, and the rear end of second circuit board 6 is resisted against on the back location wall 73 of positioning body 70.The front end of second circuit board 6 is resisted against the second surface 5b of first circuit board 5, and " L " shape conversion terminal 8 that is fixed on the second circuit board 6 wears on the corresponding first switching hole 52 and electric connection with it.The following location division 502 of first circuit board 5 is positioned between two projections 722 of positioning body 70, and the lower surface of 502 both sides, following location division is resisted against on the projection 722.Hook portion 76 on the positioning body 70 is passed the assembly hole 501 on the first circuit board 5, and hook is held on the first surface 5a.The main part 72 and location, the back wall 73 of first circuit board 5, two second circuit boards 6 that are provided with face-to-face, positioning body 70 form first receiving space 141, and this first receiving space 141 can be accommodated and is arranged on two magnetic coils 61 on the second circuit board 6.

As shown in figure 13, when connection module 2 was assembled on the insulation shell 1, one connected module 2 corresponding a pair of connectors, and the guide bar 15 on the insulation shell 1 inserts the assembly hole 501 that connects modules 2 and also extends in the guide channel 75 of positioning body 70.The leading section 401 of two butt end submodule groups 4 stretches in the corresponding interface 10 and is positioned at groove 161 places, and the plug contact site 41a of butt joint terminal 41 is exposed in the corresponding interface 10.The holding part 404 of butt end submodule group 4 is held groove 162 with the button on the insulation shell 1 and is cooperated, connection module 2 buttons are held to be positioned on the insulation shell 1, this buckling structure can will be connected module 2 and unload under the situation of not destroying connection module 2 and insulation shell 1, connect detection, maintenance works such as module 2 with convenient detection module connector 100, replacement.Display lamp 53 passes the through hole 122 on the insulation shell 1 and is exposed on the front end face 11a of insulation shell 1.

Locating surface 405 on the rearward end 402 of butt end submodule group 4 is resisted against on the dividing plate 12 of insulation shell 1, thereby forms second receiving space 142 (not shown) between the rear surface of the dividing plate 12 on the first surface 5a of first circuit board 5 and the insulation shell 1.This second receiving space 142 can be accommodated the electric capacity 54 that is arranged on the first circuit board 5 first surface 5a.The rearward end 402 of described butt end submodule group 4 is positioned at this second receiving space 142.Electric capacity 54 is between rearward end 402 and display lamp 53.

After this, on shielding casing 3 was coated on insulation shell 1 and is connected module 2, as shown in figure 14, shell fragment 31 extended in the skewed slot 112 of insulation shell 1, and is welded on the ground area 56 of first circuit board 5, thereby made each connect module 2 ground connection.The rear wall of shielding casing 3 (not indicating) pastes on the back location of positioning body 70 wall 73, and this can give and connect module one power forward.

Please refer to Figure 13, distance between two second circuit boards 6 is less than the width of first circuit board 5, also less than the distance between adjacent two risers 13, therefore, after connection module 2 is assembled on the insulation shell 1, form the 3rd receiving space 143, the three receiving spaces 143 between riser 13 and the corresponding second circuit board 6 and can accommodate resistance 62 electronic components such as grade that are arranged on the corresponding second circuit board 6 outer surface 6b.

Figure 15 to Figure 17 is second execution mode of the utility model module connector.As shown in figure 16, upside pars intermedia on the first circuit board 5 ' is fixed a ground strip 57, this ground strip 57 comprises main part 570, the centre of this main part 57 is provided with a perforate 571, the both sides of main part 570 are extended to be provided with the upside of approximately vertical fishplate bar pin 572, one abutting parts 573 of main part 570 from main part 570 and are extended.The fishplate bar pin 572 of this ground strip 57 and electric capacity 54 electrically connects, as shown in figure 17, the inboard butt of 573 of this abutting parts and shielding casing 3 ', thus make electric capacity and shielding casing 3 ' electric connection.Electric capacity 54 is positioned at second receiving space 142 '.First receiving space 142 ', 142 of second execution mode of the present utility model and first execution mode all is because the spacing between dividing plate 12 and the first circuit board 5,5 ' forms.The insulation shell 1 ' of second execution mode can not be provided with skewed slot 112.

The above; for the person of ordinary skill of the art; can make other various corresponding changes and distortion according to the technical solution of the utility model and technical conceive, and all these changes and distortion all should belong to the protection range of claim of the present utility model.

Claims

1. module connector, comprise: insulation shell and connection module, described insulation shell has mating surface, described mating surface is concaved with at least two interfaces of deploying up and down, described connection module is installed in the insulation shell, comprises some butt joint terminals, a first circuit board, two second circuit boards and some application terminals; Each butt joint terminal comprises contact site, and described some butt joint terminals comprise first group of butt joint terminal and second group of butt joint terminal, and described contact site extends into respectively in the corresponding interface; Described first circuit board is parallel to the mating surface setting; Described two second circuit boards and this first circuit board electrically connect, and vertically are provided with and perpendicular to described mating surface; Described application terminal comprises first group of signal application terminal and second group of signal application terminal, second circuit board with correspondence electrically connects respectively, thereby described first group of butt joint terminal, first circuit board, a corresponding second circuit board and first group of signal application terminal form first group of signal path, and second group of butt joint terminal, the first terminal circuit plate, another corresponding second circuit board and second group of signal application terminal form second group of signal path; It is characterized in that: described first circuit board is provided with an electric capacity, and described first group of butt joint terminal and second group of butt joint terminal all electrically connect with this electric capacity.

2. module connector according to claim 1 is characterized in that: described first circuit board towards the first surface of insulation shell mating surface and with this first surface towards opposed second surface, described electric capacity is arranged on this first surface.

3. module connector according to claim 2, it is characterized in that: described insulation shell is provided with a dividing plate, this dividing plate is parallel to described mating surface, forms second receiving space thereby have spacing between described dividing plate and the first circuit board, and described electric capacity is accommodated in this second receiving space.

4. module connector according to claim 1, it is characterized in that: described insulation shell is provided with a dividing plate, this dividing plate is parallel to described mating surface, described first group of butt joint terminal and second group of butt joint terminal are fixed on the collets, these collets be provided with towards the locating surface of described leading section and with this locating surface towards opposite supporting surface, described supporting surface and locating surface almost parallel, this supporting surface and first circuit board combination, this locating surface is resisted against on the described dividing plate, thereby form second receiving space between first circuit board and dividing plate, described electric capacity to small part is housed in this second receiving space.

5. module connector according to claim 1, it is characterized in that: also comprise and cover shell, this covers jacket and overlays on the insulation shell, described electric capacity comprises first end and second end, this first end and first group of butt joint terminal and second group of butt joint terminal all electrically conduct, and second end and the described shell that covers electrically connect.

6. module connector according to claim 5 is characterized in that: the roof of described shielding casing is provided with some shell fragments, and this shell fragment extends downwards and contacts with first circuit board.

7. module connector according to claim 6, it is characterized in that: the last end face of described insulation shell is concaved with some skewed slots, the corresponding first circuit board of described skewed slot, first circuit board has the ground area, second end of this ground area and electric capacity electrically connects and is exposed in this skewed slot to small part, described shell fragment extends in the skewed slot, and is welded on the ground area.

8. module connector according to claim 5, it is characterized in that: described connection module comprises a ground strip, this ground strip is installed on the first circuit board, comprise fishplate bar pin and abutting part, wherein second end of fishplate bar pin and described electric capacity electrically connects, the inner surface butt of the roof of abutting part and shielding casing, thus electric capacity and shielding casing are electrically connected.

9. module connector according to claim 4, it is characterized in that: described insulation shell comprises dividing plate, this dividing plate is parallel to mating surface and between mating surface and first circuit board, thereby form second receiving space between dividing plate and first circuit board, described rearward end extends in this second receiving space.

10. module connector according to claim 1, it is characterized in that: described connection module comprises two groups of conversion terminals, every group of conversion terminal comprises some signal converting terminals and a ground connection conversion terminal, be equipped with some resistance on the every second circuit board, described first group of butt joint terminal, second group of butt joint terminal passes through the end electric connection of the resistance on corresponding signal conversion terminal and the corresponding second circuit board, the other end of the resistance on every second circuit board then electrically connects the second end ground connection of described electric capacity by first end of corresponding ground connection conversion terminal and described electric capacity.