CN1574465A - Connector for multipolar coaxial cable - Google Patents

Abstract

A multi-pole connector (3) for coaxial cable comprises insulators (27); many contact parts (28), which are utilizing many transverse row insulators (27); a shell (29) for electromagnetic shielding, which is covering at least parts of the insulators (27). The central conductor (25a) of coaxial cable (25) is pressure welded on the individual contact (28). A unity with many pressure welding knifes is formed in the shell (29) and pressure welds to the exterior conductors (25c) of coaxial cable (25) individually. The exterior conductor (25c) passes the electricity through the shell (29) directly to increase the reliability of electromagnetic shielding.

Description

The multi-pole coaxial cable connector

Technical field

The present invention relates to be used for for example multi-pole coaxial cable connector of the internal wiring of miniaturized electronics such as laptop.

Background technology

In recent years, liquid crystal display screen maximizes day by day in notebook computer, accompanies therewith, utilizes cable to connect the connector of liquid crystal display screen and substrate to diversified development.In addition, the high-resolution requirement that brings based on following liquid crystal display screen to maximize, the operating frequency of liquid crystal display screen and circumferential component etc. is higher, and is therefore, more obvious from electromagnetic interference (EMI:electromagneric Interference) problem of other equipment.

In order to solve such problem, in the end of arranging the cable assembly that a plurality of coaxial cables form the plug-type connector is set sometimes, and the socket-type connector on making this plug-type connector and being fixed on liquid crystal display screen etc. is connected.

The following communique of Japan's patent Room distribution for example

Applicant country: Japan

Publication number: the spy opens flat 10-335013 number

Open day: on December 18th, 1998

This connector is provided with the ground plate that is made of the conductivity transverse slat on cable assembly, in order to the external conductor of the multi-pole coaxial cable that connects transversely arranged configuration and keep in the lump.

When the end clips that will have a cable assembly of this ground plate was held between the housing of connector and the dwang, the conductivity overcoat on making this ground plate and remaining on housing contacted, and for this reason, external conductor is via ground plate and overcoat conduction.

But, that adopts a pair of end that each other can the clamping multi-pole coaxial cable cuts apart plate as ground plate, and component count is more.

In addition, behind the local crust of strip off multi-pole coaxial cable, cut apart plate holder to hold the operation of this strip off skin portion assembling ground plate be essential and will spend assembling man-hour with a pair of.Therefore, the problem that exists component costs and assembly cost to lump together to cause manufacturing cost to improve.

In addition, there is ground plate then unfavorable aspect the connector miniaturization.

Have, the contact condition instability of ground plate and outer inner room then has influence on capability of electromagnetic shielding again.

Summary of the invention

The object of the present invention is to provide the high multi-pole coaxial cable connector of a kind of reliability small-sized, inexpensive, shielding properties.

To achieve these goals, the invention provides a kind of multi-pole coaxial cable connector that is arranged on the end of multi-pole coaxial cable, it is characterized in that: have insulator, keep a plurality of transversely arrangedly and have the terminal of the pressure contact portion of the center conductor of the coaxial cable of crimping correspondence respectively by above-mentioned insulator, at least the overcoat used of the electromagnetic shielding of coated insulation body part, the above-mentioned outer integrally formed a plurality of crimping swords of the external conductor of each coaxial cable of crimping respectively that put.

Among the present invention, utilize crimping that external conductor and overcoat are directly conducted, therefore, the reliability height of capability of electromagnetic shielding.In addition, can cancel the existing ground plate that adopts, therefore, can reduce manufacturing cost, can also help the miniaturization of electric connector simultaneously.

Description of drawings

Fig. 1 is the view sub-anatomy that contains the electric connector of the plug-type connector of one embodiment of the present invention and socket-type connector.

Fig. 2 A and Fig. 2 B are respectively the vertical view and the front views of socket-type connector.

Fig. 3 A and Fig. 3 B are respectively the vertical view and the end views of the cable assembly that is connected with the plug-type connector.

Fig. 4 is the schematic sectional view of coaxial cable.

Fig. 5 is the concise and to the point view sub-anatomy of plug-type connector and socket-type connector.

Fig. 6 A and Fig. 6 B are the vertical view of plug-type connector Unit the 1st and the rearview of partly cut-away.

Fig. 7 is the rearview of Unit the 1st.

Fig. 8 A and Fig. 8 B are the rearview and the upward views of Unit the 2nd of plug-type connector.

Fig. 9 is the decomposing rearview of the partly cut-away of plug-type connector.

Figure 10 is the hook and the pattern cutaway view that fastens as the hook connecting hole of Unit the 2nd of explanation Unit the 1st.

The ideograph of the operation of the inner conductor of crimping coaxial cable when Figure 11 A and Figure 11 B are expression assembled plug type connector.

The ideograph of the operation of the external conductor of crimping coaxial cable when Figure 12 A and Figure 12 B are expression assembled plug type connector.

Figure 13 is the concise and to the point cutaway view of the connection status of expression plug-type connector and socket-type connector.

Embodiment

With reference to accompanying drawing the preferred embodiments of the present invention are described.Fig. 1 has as the plug-type connector of the coaxial cable connector of one embodiment of the invention and as the view sub-anatomy of the electric connector 1 of the socket-type connector 2 of dock connector.

With reference to Fig. 1, socket-type connector 2 is assemblied in the surperficial 4a of substrate 4.Socket-type connector 2 has: zoning insert space 5 the housing of making by insulating properties synthetic resin 6, transversely arrangedly remain on roughly inserting a plurality of terminals 7 in the space 5, coating the ground connection overcoat 8 that the electromagnetic shielding of the part, outside of housing 6 is used of this housing 6.Ground connection overcoat 8 is formed by the hardwares such as for example copper alloy that metal punching is shaped.

Housing 6 has upper plate portion 9 and the lower board unit 10 that mutual zoning is inserted space 5, and the leading edge 10a of lower board unit 10 is configured in the position that retreats specific length than the leading edge 9a of upper plate portion 9.On the other hand, ground connection overcoat 8 has upper plate portion 11 and the upper plate portion 9 of lower board unit 12 difference covering shells 6 and the outside of lower board unit 10.The front portion of the lower board unit 12 of ground connection overcoat 8 forms contains the coincidence plate that is the reflex part 13 that driving fit shape roughly turns back to the inside.Reflex part 13 zonings of ground connection overcoat 8 are inserted the part in space 5.

With reference to Fig. 2 A and Fig. 2 B, extend the reinforcement corbel back slab 71 that section L glyph shape is set respectively from the left and right sides edge portion of the upper plate portion 11 of ground connection overcoat 8, each strengthens corbel back slab 71 to be fixed on the surperficial 4a of substrate 4 by soldering along the state of housing 6 sidepieces.

Inserting space 5 opens to the place ahead of socket-type connector 2 X via opening 14.Insert space 5 inwardly up to the fore-and-aft direction pars intermedia of housing 6, on its diapire 15, the transversely arranged fixing hole 16 that is provided with is fixed each terminal 7 from the rear perforation.Below the upper plate portion 9 of housing 6, keep the maintenance groove 17 of each terminal 7 first half to form and the pairing fixing hole 16 broach shape of Even Xiang.

Terminal 7 has main part 18 on the fixing hole 16 that is fixed on housing 6, forwards extends by the cantilever-shaped flexure strip portion 19 of main part 18 cantilever support, from what main part 18 rearward extended from this main part 29 and form roughly " コ " the wire portion 20 of word shape.

Form snap projection 21 on the main part 18, be buckled on the wall of fixing hole 16.Flexure strip portion 19 has downward mountain shaped protrusions 22, and the top of this mountain shaped protrusions 22 constitutes contact site 23.Wire portion 20 solderings are fixed on the electroconductive component (not shown) of the surperficial 4a of substrate 4.

As Fig. 1 and shown in Figure 5, plug-type connector 3, by as the 1st unit 3a of partial component (subassembly) and constitute 2 parts (piece) structure formation with the 2nd unit 3b of the 1st unit 3a combination, clamping has the end 24a of cable assembly 24 between the 1st unit 3a and the 2nd unit 3b.

With reference to Fig. 3, cable assembly 24 is by clipping retaining members such as laminate film 26 formations that these coaxial cables 25 are bonded with each other with multipole (for example 20 utmost points) coaxial cable 25 of the horizontal proper alignment of fine pitch (for example 0.5mm) with from both sides, integral body is the flat cable shape.

With reference to Fig. 4, each coaxial cable 25, have center conductor 25a, coat center conductor 25a periphery internal insulator 25b, coat for example netted external conductor 25c in this internal insulator 25b outside and coat the outer insulator 25d in this external conductor 25c outside.

As shown in Figure 3, each coaxial cable 25 of cable assembly 24 exposes specific length (for example 15mm) from retaining member 26, peel external conductor 25c and outer insulator 25d off in its end, makes internal insulator 25b expose specific length (for example 1～2mm).

Refer again to Fig. 1, the 1st unit 3a has: the housing of being made by the forming synthetic resin product of insulating properties 27 as insulator, transversely arrangedly remain on a plurality of terminals 28 on this housing 27, coat the metallic overcoat 29 that the electromagnetic shielding of housing 27 parts is used.

With reference to Fig. 1 and Fig. 5, housing 27 has: main part 30 and extend and insert insertion protuberance 31 in the insertion space 5 of socket-type connector 1 from main part 30.

With reference to Fig. 5 and Fig. 6, terminal 28 has: inlay the fixed part that is groove shape 32 of setting when the ester moulding of housing 27, the maintenance groove 33 from an end of fixed part 32 along the 1st 31a that inserts protuberance 31 extends to the contact site 34 that inserts protuberance 31 front ends, extend from other ends of fixed part 32 and be provided with and from U word shape portion 35 that the 1st 30a of main part 30 exposes.

Shown in Figure 11 A and Figure 11 B, the inner edge of U word shape portion 35, become the crimping sword 37 of conduct the 1st pressure contact portion of zoning slit 36, the center conductor 25a of crimping coaxial cable 25 on the crimping sword 37 of the internal insulator 25b that breaks through coaxial cable 25 conducts guaranteeing.

With reference to Fig. 5, Figure 6 and Figure 7, overcoat 29 has: the rectangular-shaped main part 38 of the 2nd 30b that exposes the main part 30 of housing 27, from the left and right sides portion of main part 38 respectively to plug-type connector 3 the place ahead Y extend, expose substantially housing 27 insertion protuberance 31 the 1st 31a and bury a pair of contact site 39 of leading section 39a underground, be a plurality of kinks 40 that the broach shape is arranged from the vertical bending of hinder marginal part of main part 38.

Each kink 40 contains: be molded in as the 40a of the portion that buries underground in the housing 27 of insulator when the ester moulding of housing 27, be exposed to the protuberance 40b of the 1st 30a of the main part 30 of housing 27.

Form crimping sword 42 as the 2nd pressure contact portion of zoning slit 41 at the subtend lateral margin of adjacent protuberance 40b, the external conductor 25c of crimping coaxial cable 25 on the crimping sword 42 of the outer insulator 25d that breaks through coaxial cable 25 conducts guaranteeing.

The portion that extends 43 of the horn shape that extends from the left and right sides sidepiece of the main part 38 of overcoat 29 is embedded in the main part 30 of housing 27.Respectively extend portion 43, pass the central authorities of the corresponding hook connecting hole 45 that is provided with on main part 30 sidewalls 44 of housing 27.With reference to Fig. 9 and Figure 10, be wholely set a pair of hook 47 on the overcoat 46 of the 2nd unit 3b as bindiny mechanism, insert in the hook connecting hole 45 elasticity and enlarge and be buckled in the portion of extending 43 and lock.Extend portion 43, be the part in exposing hook connecting hole 45 and bury the 43a of portion underground, this is buried the 43a of portion underground and is molded in the housing when the ester moulding of housing 27.

With reference to Fig. 5 and Fig. 8 A and Fig. 8 B, the 2nd unit 3b has: the metal above-mentioned overcoat 46 that housing 48 that is made of the forming synthetic resin product of insulating properties and the electromagnetic shielding that coats housing 48 outside 48a are used.Overcoat 46 has: coat housing 48 outside 48a main part 55, from the bending of main part 55 left and right sides edge vertical configurations crotched as above-mentioned bindiny mechanism hook 47 and be the kink 56 of vertical bar bending from the trailing edge of main part 55.

Each kink 56 contains: be molded in as the 56a of the portion that buries underground in the housing 48 of insulator when the ester moulding of this housing 48, be exposed to the protuberance 56b of the inner face 48b of housing 48.The root of the protuberance 56b of adjacency forms the crimping sword 57 of conduct the 3rd pressure contact portion that is V word shape mutually, so that the interval between the protuberance 56b of adjacency narrows down in the root side.

The transversely arranged cable that is provided with keeps groove 53 on the inner face 48b of housing 48, can accommodate each coaxial cable 25 that keeps cable assembly 24 respectively.In addition, the transversely arranged recess 49 that is provided with on inner face 48b, this recess 49 are in order to the U word shape portion 35 of each terminal 28 of taking in the 1st unit 3a and prevent the expansion of U word shape portion 35.In addition, keep the bottom of groove 53 that a pair of pushing portion 50,51 is set at the cable of inner face 48b, in order to when the crimping of the center conductor 25a of the coaxial cable 25 shown in Figure 11 A and Figure 11 B, push the center conductor 25a of each coaxial cable 25 to the 1st unit 3a side (crimping direction) in the front and back that clip U word shape portion 35.

Equally, the transversely arranged recess 52 that is provided with on the inner face 48b of housing 48 is in order to the broach shape protuberance 40b of the overcoat 29 of taking in the 1st unit 3a respectively and prevent the expansion of slit 41.In addition, cable at inner face 48b keeps groove 53 bottoms that pushing portion 54 is set, in order to when the crimping of the external conductor 25c of the coaxial cable 25 shown in Figure 12 A and Figure 12 B, push the external conductor 25c of each coaxial cable 25 to the 1st unit 3a side (crimping direction) in the front and back that clip slit 41.

In the present embodiment, during assembled plug type connector 3, at first as shown in Figure 5, the end 24a of cable assembly 24 is remained among the 2nd unit 3b as retainer.At this moment, shown in Figure 12 A, with the integrally formed crimping sword 57 of the overcoat 46 of the 2nd unit 3b on the external conductor 25c of crimping coaxial cable 25.

Under the state of the end 24a that is kept cable assembly 24 by the 2nd unit 3b, 3b is entrenched among the 1st unit 3a with these Unit the 2nd.At this moment, shown in Figure 11 B, crimping sword 37 crimping of center conductor 25a and terminal 28, simultaneously shown in Figure 12 B, crimping sword 42 crimping of external conductor 25c and overcoat 29.In addition, in the time of crimping, the hook 47 of the 2nd unit 3b is fastened in the portion that extends 43 of hook connecting hole 45 of the 1st unit 3a, thereby two unit 3a, 3b interconnect buckle.

Therefore, as easy as rolling off a log cable assembly 24 is installed plug-type connectors 3, in addition,, external conductor 25c and each overcoat 29,46 are directly conducted by aforesaid crimping, so the reliability height of electromagnetic shielding.In addition, can abrogate the existing ground plate that adopts, therefore can reduce manufacturing cost, simultaneously, can also help the miniaturization of plug-type connector 3.In addition, from both sides crimping clamping external conductor 25c, therefore, can positively keep coaxial cable 25, improve and prevent the effect that comes off with the crimping sword 42,57 of two overcoats 29,46

In addition, when the ester moulding of the housing 27 of plug-type connector 3, therefore fixed jacket 29, compares with the situation that overcoat is installed behind the ester moulding simultaneously, can make manufacturing cost cheaper man-hour by cutting down assembling.In addition, overcoat 29 relative housings 27 is fixing very firm.

Particularly,, and be set as 2 part-structures of the 1st unit 3a and the 2nd unit 3b, the operation in the time of greatly improving cable assembly 24 and install as the partial component of the end 24a that is used for clamping cable assembly 24.

As shown in figure 13, the 2nd of the insertion protuberance 31 of Zu Zhuan plug-type connector 3 the 31b above reflex part 13 below the insertion space 5 of zoning socket-type connector 2 and the lower board unit 10, imports to insertion protuberance 31 and inserts in the space 5 like this.At this moment, the contact site 39 of the 2nd 31b that is exposed to the insertion protuberance 31 of plug-type connector 3 contacts and guarantees that 2,3 overcoats 8,29 of two connectors conduct.

In addition, contact site 34 Elastic Contact of the contact site of the terminal 7 of socket-type connector 2 23 and the terminal 28 of the 1st 31a of the insertion protuberance 31 of plug-type connector 3 have the necessary pressure (contact pressure) that connects, and can guarantee to conduct.

More than, by specific embodiment the present invention is had been described in detail, understand the those of ordinary skill of foregoing and can easily consider its change, distortion and equivalent.Therefore, the present invention should be scope and its scope that is equal to of technical scheme.

Claims (7)

1. multi-pole coaxial cable connector is arranged on the end of multipole coaxial cable, it is characterized in that:

Possess: insulator is kept a plurality of transversely arrangedly, is had the terminal of the pressure contact portion of the center conductor of the coaxial cable of crimping correspondence respectively and the overcoat used of the electromagnetic shielding of coated insulation body part at least by above-mentioned insulator;

Above-mentioned outer putting is formed with a plurality of crimping swords of the external conductor of each coaxial cable of crimping respectively.

2. multi-pole coaxial cable connector according to claim 1 is characterized in that: above-mentioned overcoat contains main part, from a plurality of kinks of main part bending.

3. multi-pole coaxial cable connector according to claim 2 is characterized in that: each above-mentioned kink contains the protuberance that is embedded in the portion that buries underground in the insulator and exposes from insulator.

4. multi-pole coaxial cable connector according to claim 3 is characterized in that: the adjacent protuberance of above-mentioned overcoat relatively to lateral margin on form above-mentioned crimping sword respectively, and coaxial cable is inserted between the crimping sword of adjacent protuberance.

5. according to claim 1,2,3 or 4 described multi-pole coaxial cable connectors, it is characterized in that: above-mentioned insulator contains the shaping resin of the part of molded overcoat.

6. according to claim 1,2,3 or 4 described multi-pole coaxial cable connectors, it is characterized in that: the above-mentioned outer integrally formed contact site that puts, when this multi-pole coaxial cable was chimeric with connector and the connector that connects, above-mentioned contact site was connected with the earthy overcoat of the connector that connects.

7. according to claim 1,2,3 or 4 described multi-pole coaxial cable connectors, it is characterized in that: above-mentioned insulator contains the pair of shells of the end of the multipole coaxial cable of mutual clamping, above-mentioned overcoat contains a pair of overcoat that coats the pair of shells part respectively, and each outer putting is wholely set the crimping sword of the external conductor of the above-mentioned coaxial cable of crimping respectively.

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