CN204243280U - Flat cable connector assembly - Google Patents

Abstract

The utility model provides a flat cable connector component, include: the flat cable assembly comprises an insulating body, a plurality of conductive terminals and a flat cable assembly. The insulating body is provided with a row of slots and a socket, the socket extends in the insulating body to form an accommodating cavity, and the accommodating cavity is communicated with the slots. At least one slot is formed on two sides of the socket of the insulating body, and a convex part extending towards the bottom surface of the slot is formed on the top surface of the slot. The conductive terminals are fixed in the corresponding slots. The flat cable assembly is inserted into the accommodating cavity of the insulating body from the jack; the position of the rear edge of the circuit board of the flat cable assembly is clamped with the protruding part of the insulating body, so that the circuit board is prevented from retreating from the insulating body.

Description

Flat cable connector assembly

Technical field

The utility model relates to a kind of micro coaxial cable connector assembly, relates to a kind of Flat cable connector assembly especially.

Background technology

Micro coaxial cable connector assembly is widely used in the different electronic installations connecting different electronic equipments or electronic equipment internal.

With RJ-45(Registered Jack-45, hereinafter referred to as RJ-45) micro coaxial cable connector assembly is example, it is usually used in for interconnection network network end in broadband network, local area network (LAN), as the physical circuit between the equipment such as PC, server, switch, router connects.The cable of usual RJ-45 micro coaxial cable connector assembly is the circular cable of one utilizing twisted pair wire to be encapsulated in formation in an insulating coating, but because the wire arrangement in circular cable does not have directivity, after needing artificial contraposition when assembling, just can carry out the assembling operation of wire rod and connector, not easily import automation.

At present, due to flat cable (Flat Cable) there is softness, arbitrarily bending, the advantage such as thickness is thin, volume is little, and flat cable can select arbitrarily wire count and spacing, its planar structure can save the space of other interconnection in equipment or rack in a large number.Therefore, flat cable is applied in micro coaxial cable connector assembly, especially be applied in RJ-45 micro coaxial cable connector assembly, not only can give full play to the advantage of its flat cable, and the assembling operation of wire rod and connector can also be improved through the design of the signal pin position of the parallel conductor layout structure of flat cable and circuit board, be conducive to realizing automation.

Therefore, the Flat cable connector assembly that a kind of novelty is provided is needed, with meeting the market requirement.

Utility model content

Main purpose of the present utility model is to provide a kind of Flat cable connector assembly, and its structure is convenient to assembling, has very strong fail safe, thus improves its product quality.

Other object of the present utility model and advantage can be further understood from the technical characteristic disclosed by the utility model.

For reaching above-mentioned purpose, the utility model adopts following technical scheme: a kind of Flat cable connector assembly comprises: an insulating body, several conducting terminals and a Flat cable component.This insulating body has an abutting end and a cable end, row's slit is formed in the bottom surface of this abutting end, form a socket in the rear surface of this cable end, this socket extends to form a host cavity in this insulating body, and wherein this host cavity is connected with these slits; At least be formed with a slot in the socket both sides of this insulating body, be formed with the protuberance extended towards this slot bottom surface at the end face of slot.Those conducting terminals are fixed in the slit of the correspondence of this insulating body.This Flat cable component inserts in this host cavity of this insulating body from this socket; This Flat cable component comprises a circuit board and a flat cable, wherein this flat cable is fixed to be formed on this circuit board and with this circuit board and is electrically connected, several conductive spacers are formed with, in order in electrical contact with these conducting terminals in the front-end surface of this circuit board.Wherein the protuberance of this insulating body is locked to the antemarginal position of this board rear end, prevents this circuit board from stepping back and departing from this insulating body.

According to a wherein embodiment of the present utility model, this Flat cable connector assembly also comprises an enclosing cover, has the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; On the inner surface of this protective cover, be provided with at least one catching groove, on the outer surface of this insulating body, be then provided with at least one projection, the projection of this insulating body matches with the catching groove of this enclosing cover, with fixing enclosing cover.This enclosing cover also can through mould with direct injection mode local this Flat cable component coated and this insulating body.

According to a wherein embodiment of the present utility model, this Flat cable connector assembly also comprises a shielding casing, there is a top board, a base plate, biside plate, and one by this top board, this base plate and this biside plate around the containment chamber in order to hold this insulating body formed; This shielding casing also has at least one ground strip towards this containment chamber bending, and at least one is towards the stator of this containment chamber bending.

According to a wherein embodiment of the present utility model, be formed with at least one ground pad at the rear end surface of this circuit board, this ground strip of this ground pad and this shielding casing is in electrical contact, forms grounded circuit; This stator of this shielding casing is then resisted against the back edge of this circuit board, prevents this circuit board from stepping back.

According to a wherein embodiment of the present utility model, this Flat cable connector assembly also comprises an enclosing cover, has the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; At least one catching groove is provided with on the inner surface of this protective cover; At least one outside lug boss is all formed, in order to engage with the catching groove of this enclosing cover on this shielding casing.This enclosing cover also can utilize mould with direct injection mode local this Flat cable component coated and this insulating body or this shielding casing.

According to a wherein embodiment of the present utility model, all formed on this shielding casing at least one day to the inner fovea part of this containment chamber, the outer surface of this insulating body then forms at least one groove, and this inner fovea part of this shielding casing snaps in this groove of this insulating body.

According to a wherein embodiment of the present utility model, this Flat cable connector assembly also comprises a dividing plate; Form barb structure in these dividing plate both sides, fix this dividing plate in order to coordinate with this insulating body; Upper surface in this dividing plate forms at least one depression, and this depression is corresponding with the stator on this shielding casing, with thinking that this stator abdicates fixed space.This dividing plate inserts in this host cavity from the socket of this insulating body, and is resisted against the rear edge of this circuit board.

For reaching above-mentioned purpose, the utility model also adopts following technical scheme: a kind of Flat cable connector assembly comprises: an insulating body, several conducting terminals, a shielding casing and a Flat cable component.This insulating body has an abutting end and a cable end, row's slit is formed in the bottom surface of this abutting end, form a socket in the rear surface of this cable end, this socket extends to form a host cavity in this insulating body, and wherein this host cavity is connected with these slits.These conducting terminals are fixed in the slit of the correspondence of this insulating body.This shielding casing has a top board, a base plate, biside plate, and one by this top board, this base plate and this biside plate around the containment chamber in order to hold this insulating body formed; This shielding casing also has at least one ground strip towards this containment chamber bending, and at least one is towards the stator of this containment chamber bending.This Flat cable component inserts in this host cavity of this insulating body from this socket; This Flat cable component comprises a circuit board and a flat cable, and wherein this flat cable is fixed to be formed on this circuit board and with this circuit board and is electrically connected; Several conductive spacers are formed with, in order in electrical contact with these conducting terminals in the front-end surface of this circuit board; And be formed with at least one ground pad at the rear end surface of this circuit board, and in electrical contact with this ground strip of this shielding casing, form grounded circuit.Wherein this stator card of this shielding casing leans against the antemarginal centre position of this circuit board, prevents this circuit board from stepping back.

Compared to prior art, the utility model Flat cable connector assembly can fix separately Flat cable component by means of only the lock solid structure on insulating body; Or the interference engagement only by circuit board and insulating body fixes Flat cable component; Or fix Flat cable component by means of only at tap position point glue; Or fix Flat cable component separately by means of only shielding casing; Or fix Flat cable component by dividing plate; Or fix Flat cable component by both dividing plate and shielding casing simultaneously; Again or Flat cable component can also be fixed by both insulating body and shielding casing simultaneously.Visible, the utility model Flat cable connector assembly can be applicable to different connection occasions, and all has very strong safety of structure, can improve the quality of products.In addition, because assembling is all convenient in the component configuration of the utility model Flat cable connector assembly, thus its production efficiency is improved.

Accompanying drawing explanation

Fig. 1 is the perspective view of the Flat cable connector assembly of the utility model first embodiment.

Fig. 2 is the cross-sectional view of Flat cable connector assembly along the line of A-A shown in Fig. 1 of the utility model first embodiment.

Fig. 3 is the schematic diagram after the entire infrastructure of the Flat cable connector assembly of the utility model first embodiment decomposes.

Fig. 4 is the schematic diagram along other direction after the entire infrastructure of the Flat cable connector assembly of the utility model first embodiment decomposes.

Fig. 5 is the perspective view of the insulating body of the Flat cable connector assembly of the utility model first embodiment, to present the thin portion structure of this insulating body.

Fig. 6 is the perspective view of the shielding casing of the Flat cable connector assembly of the utility model first embodiment, to present the thin portion structure of this shielding casing.

Fig. 7 is the schematic diagram after most of textural association of the Flat cable connector assembly of the utility model first embodiment.

Fig. 8 is the schematic diagram after a part of textural association of the Flat cable connector assembly of the utility model second embodiment.

Fig. 9 is the cross-sectional view of the Flat cable connector assembly of the utility model second embodiment.

Figure 10 is the schematic diagram after the entire infrastructure of the Flat cable connector assembly of the utility model second embodiment decomposes.

Figure 11 is the schematic diagram after most of textural association of the Flat cable connector assembly of the utility model second embodiment.

Figure 12 is the perspective view of the Flat cable connector assembly of the utility model the 3rd embodiment.

description of reference numerals in above-mentioned accompanying drawing is as follows:

Flat cable connector assembly 1,1 ' 1 "

Insulating body 10 lock catch arm 11

Slit 12 socket 13

Host cavity 14 slot 15

Protuberance 16 groove 17

Projection 18 " conducting terminal 20

Elastic arm 21 shielding casing 30

Top board 31 base plate 32

Side plate 33 containment chamber 34

Ground strip 36 stator 37

Lug boss 38 inner fovea part 39

Flat cable component 40 circuit board 41

Back edge 410 conductive spacer 412

Ground pad 414 flat cable 42

Enclosing cover 50 protective cover 51

Catching groove 510 cable protective sleeve 52

Dividing plate 60 ' hangnail 61 '

Depression 62 '.

Embodiment

Below in conjunction with graphic, preferred embodiment of the present utility model is elaborated, to make advantage of the present utility model and feature can be easier to be readily appreciated by one skilled in the art, thus more explicit defining is made to protection range of the present utility model.

Please refer to the Flat cable connector assembly 1 of the utility model first embodiment shown in Fig. 1 to Fig. 7, in a first embodiment, the utility model Flat cable connector assembly 1 comprises an insulating body 10, several conducting terminal 20, one shielding casing 30, Flat cable component 40 and enclosing covers 50.

As shown in Fig. 3, Fig. 4 and Fig. 5, above-mentioned insulating body 10 has the cable end that an abutting end and being positioned at front is positioned at rear, a lock catch arm 11 is formed at the end face of this abutting end, this lock catch arm 11 be towards oblique upper extend, in order to by this Flat cable connector assembly 1 snap close on butt-joint socket.Row's slit 12(is formed as shown in Figure 4 in the bottom surface of this abutting end), insert with for these conducting terminals 20 and be fixed on wherein.Form a socket 13 in the rear surface of this cable end, this socket 13 extends to form forward a host cavity 14(as shown in Figure 5 in this insulating body 10), wherein this host cavity 14 is connected with these slits 12.A slot 15(is at least formed with as shown in Figure 5 in socket 13 both sides of this insulating body 10), insert this host cavity 14 with for this Flat cable component 40.Be formed with the protuberance 16 extended towards slot 15 bottom surface at the end face of slot 15, insert this Flat cable component 40 in this host cavity 14 in order to locking.In addition, on this insulating body 10 outer surface, be formed with at least one groove 17, be used for fixing this shielding casing 30.

As shown in Figure 2, Figure 3 and Figure 4, in the form of sheets, the top of each conducting terminal 20 all forms an elastic arm 21 to above-mentioned conducting terminal 20, and each conducting terminal 20 is all fixed in the slit 12 of the correspondence of this insulating body 10.

As shown in Fig. 3, Fig. 4 and Fig. 6, above-mentioned shielding casing 30 is in frame-type, there is top board 31, base plate 32, biside plate 33, and one by this top board 31, this base plate 32 with this biside plate 33 around the containment chamber 34 formed, this containment chamber 34 is in order to hold this insulating body 10.Wherein this shielding casing 30 also has three ground strips 36 towards this containment chamber 34 bending, is also formed with two stators 37 towards this containment chamber 34 bending.In addition, all form two outside lug bosses 38 at this shielding casing 30, in order to coordinate with enclosing cover 50, play the effect of fixing enclosing cover 50; And all formed in this shielding casing 30 and to the inner fovea part 39 of this containment chamber 34, in order to coordinate with the groove 17 of this insulating body 10 outer surface, in this way this shielding casing 30 is fixed on this insulating body 10 at least one day.In the present embodiment, the quantity of ground strip 36, stator 37, lug boss 38, inner fovea part 39 can need according to practical structures the adjustment made in design, therefore cannot limit interest field of the present utility model by quantity.

When assembling, as shown in Figure 7, first, these conducting terminals 20 are first fixed on this insulating body 10 with this shielding casing 30, wherein these conducting terminals 20 are fixed in the slit 12 of the correspondence of this insulating body 10, and this shielding casing 30 is then coated and be fixed on this insulating body 10.In detail, please also refer to shown in Fig. 2, Fig. 7, this shielding casing 30 is placed on this insulating body 10 from back to front, and now this ground strip 36 all stretches in this host cavity 14 with stator 37, prepares to coordinate with this Flat cable component 40.The inner fovea part 39 of this shielding casing 30 snaps in the groove 17(of this insulating body 10 as shown in Figure 5) in, thus fix this shielding casing 30, prevent it from coming off.

As shown in Figures 3 and 4, above-mentioned Flat cable component 40 comprises circuit board 41 and a flat cable 42, wherein this flat cable 42 is welded and fixed on this circuit board 41 and is formed with this circuit board 41 to be electrically connected, because this flat cable 42 staggers in step-like with this circuit board about 41, the back edge 410 of this circuit board 41 becomes shoulder.The front-end surface of this circuit board 41 is formed with several conductive spacer 412(as Fig. 4), in order to contact with these conducting terminals 20, thus form conductivity pathway between conducting terminal 20 and this flat cable 42.Three ground pad 414(are formed with as Fig. 3) at the rear end surface of this circuit board 41.In the present embodiment, ground pad 414 can need to adjust according to actual design with the quantity of conductive spacer 412, therefore cannot limit interest field of the present utility model by quantity.

When assembling, as shown in Figure 7, this Flat cable component 40 inserts in this insulating body 10 from the socket 13 of this insulating body 10.In detail, please also refer to shown in Fig. 2, Fig. 5, Fig. 6 and Fig. 7, this Flat cable component 40 inserts in this host cavity 14 of this insulating body 10, and the conductive spacer 412 be positioned in the front-end surface of this circuit board 41 is in electrical contact with the elastic arm 21 of conducting terminal 20, to form electrical transmission channel.The ground pad 414 be positioned on the rear end surface of this circuit board 41 contacts with the ground strip 36 of this shielding casing 30, to form grounded circuit.In addition, this stator 37 of this shielding casing 30 is resisted against the position of the back edge 410 of this circuit board 41, the protuberance 16 be positioned on this insulating body 10 is then resisted against two side positions of the back edge 410 of this circuit board 41, thus this Flat cable component 40 is locked on this insulating body 10, prevent this circuit board 41 from stepping back and emerging in outside this host cavity 14.

In a first embodiment, simultaneously this Flat cable connector assembly 1 fixes this Flat cable component 40 by this insulating body 10 with this shielding casing 30.But in fact, this Flat cable connector assembly 1 can fix separately this Flat cable component 40 by means of only shielding casing 30 or insulating body 10, and its safety of structure is enough.That is in other embodiments, this insulating body 10 without the need to arranging protuberance 16 as shown in Figure 5, and can prevent this Flat cable component 40 from exiting by means of only the locking of shielding casing 30; Or fix Flat cable component 40 by means of only circuit board 41 and the interference engagement of insulating body 10; Or Flat cable component 40 can also be fixed by utilizing in socket 13 position point glue mode.

As shown in Figure 3 and Figure 4, this enclosing cover 50 is formed with the protective cover 51 that is positioned at front end, and the cable protective sleeve 52 that is positioned at rear end, is provided with two catching grooves 510 on the inner surface of this protective cover 51.Shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 7; when this Flat cable component 40 is inserted in this insulating body 10; this protective cover 51 is sheathed on the periphery of this shielding casing 30 through flat cable 42, this cable protective sleeve 52 is then sheathed on this flat cable 42 place just.In addition, this shielding casing 30 lug boss 38(as shown in Figure 3, Figure 4) snap in the corresponding catching groove 510 of this protective cover 51, to fix this enclosing cover 50.This enclosing cover also can utilize mould with the mode of direct injection local this Flat cable component coated and this shielding casing.

Please refer to shown in Fig. 8 to Figure 11, the Flat cable connector assembly 1 ' of the utility model second embodiment also comprises insulating body 10, conducting terminal 20, shielding casing 30, Flat cable component 40 and enclosing cover 50.Compared with the first embodiment, the Flat cable connector assembly 1 ' of the utility model second embodiment also comprises a dividing plate 60 '.Form hangnail 61 ' (as shown in Figure 10) in these dividing plate 60 ' both sides, the upper surface of this dividing plate 60 ' forms two depressions 62 ', and this depression 62 ' is corresponding with the stator 37 on this shielding casing 30.After this Flat cable component 40 is assembled in this insulating body 10, this dividing plate 60 ' inserts in this host cavity 14 from the socket 13 of this insulating body 10, and be just placed in the step place formed between this flat cable 42 and this circuit board 41, and be resisted against back edge 410 place of this circuit board 41.Wherein, the hangnail 61 ' of these dividing plate 60 ' both sides can prevent this dividing plate 60 ' from departing from this insulating body 10, depression 62 ' on this dividing plate 60 ' then can for the stator 37(on this shielding casing 30 as shown in Figure 6) abdicate fixed space, thus under the prerequisite of fixed performance not affecting this shielding casing 30, fix this Flat cable component 40 further, further improve the safety of structure of the utility model Flat cable connector assembly 1 ' in this way.

In addition, compared with the first embodiment, because the Flat cable connector assembly 1 ' of the utility model second embodiment by the fixing Flat cable component 40 of dividing plate 60 ', or can fix Flat cable component 40 by shielding casing 30 and dividing plate 60 ' simultaneously, its safety of structure is enough.Therefore this insulating body 10 of the second embodiment is without the need to arranging the lock solid structure to this Flat cable component 40 again, that is without the need to arranging protuberance 16 as shown in Figure 5.

It is the 3rd embodiment that the utility model Flat cable connector assembly can also be improved, as shown in figure 12, compared with the first embodiment, and the Flat cable connector assembly 1 of the utility model the 3rd embodiment " can shielding casing be exempted.In the third embodiment, this Flat cable component 40 fixes separately by means of only the solid lock construction on insulating body 10.Such as: by means of only this protuberance 16(on this insulating body 10 as shown in Figure 5) block two side positions of the back edge 410 of this circuit board 41, exit outward to prevent this circuit board 41.In addition, in the third embodiment, projection 18 can also be set on the outer surface of this insulating body 10 ", this projection 18 " can match with the catching groove 510 of this enclosing cover 50, in order to fixing enclosing cover 50.This enclosing cover 50 also can through mould with direct injection mode local this Flat cable component 40 coated and this insulating body 10.

The utility model Flat cable connector assembly 1,1 ', 1 " be not limited to above three embodiments; different design alterations can also be adopted according to practical application; such as: the enclosing cover 50 in first, second and third embodiment can be removed and form fourth, fifth, six embodiments respectively; to simplify structure further; make the utility model Flat cable connector assembly 1,1 ', 1 " become smaller and more exquisite, and be applicable to more occasion.

In sum, the utility model Flat cable connector assembly 1,1 ', 1 " can, by multiple fixed form locking Flat cable component 40, prevent Flat cable component 40 from exiting this insulating body 10.Such as: in the third embodiment, just Flat cable component 40 can be fixed by means of only the lock solid structure (protuberance 16) on insulating body 10; In a second embodiment, fix Flat cable component 40 by dividing plate 60 ' and both shielding casings 30 simultaneously; And in a first embodiment, then fix Flat cable component 40 by insulating body 10 and shielding casing 30, or by means of only shielding casing 30 fixing Flat cable component 40 separately, and do not need to arrange lock solid structure on insulating body 10; Or fix Flat cable component 40 by means of only circuit board 41 and the interference engagement of insulating body 10; Or fix Flat cable component 40 by means of only at socket 13 location point glue.Visible, the utility model Flat cable connector assembly can be applicable to different connection occasions, and all has very strong safety of structure, can improve the quality of products.In addition, because assembling is all convenient in the component configuration of the utility model Flat cable connector assembly, thus its production efficiency is improved.

Claims (18)

1. a Flat cable connector assembly, comprising: an insulating body, several conducting terminals and a Flat cable component, is characterized in that:

This insulating body has an abutting end and a cable end, row's slit is formed in the bottom surface of this abutting end, form a socket in the rear surface of this cable end, this socket extends to form a host cavity in this insulating body, and wherein this host cavity is connected with these slits;

These conducting terminals are fixed in the slit of the correspondence of this insulating body; And this Flat cable component inserts in this host cavity of this insulating body from this socket;

This Flat cable component comprises a circuit board and a flat cable, wherein this flat cable is fixed to be formed on this circuit board and with this circuit board and is electrically connected, several conductive spacers are formed with, in order in electrical contact with these conducting terminals in the front-end surface of this circuit board.

2. Flat cable connector assembly as claimed in claim 1, is characterized in that: the socket both sides of this insulating body are at least formed with a slot, is formed with the protuberance extended towards this slot bottom surface at the end face of slot; This protuberance is locked to the antemarginal position of this board rear end, prevents this circuit board from stepping back and departing from this insulating body.

3. Flat cable connector assembly as claimed in claim 2, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover having the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; On the inner surface of this protective cover, be provided with at least one catching groove, on the outer surface of this insulating body, be then provided with at least one projection, the projection of this insulating body matches with the catching groove of this enclosing cover, with fixing enclosing cover.

4. Flat cable connector assembly as claimed in claim 1, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover having the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; This enclosing cover utilizes mould with the mode of direct injection local this Flat cable component coated and this shielding casing.

5. Flat cable connector assembly as claimed in claim 1, it is characterized in that: this Flat cable connector assembly also comprises a shielding casing, there is a top board, a base plate, biside plate, and one by this top board, this base plate and this biside plate around the containment chamber in order to hold this insulating body formed; This shielding casing is all formed and to the inner fovea part of this containment chamber, then forms at least one groove at the outer surface of this insulating body at least one day, and this inner fovea part of this shielding casing snaps in this groove of this insulating body.

6. Flat cable connector assembly as claimed in claim 5, is characterized in that: this shielding casing also has at least one ground strip towards this containment chamber bending; Be formed with at least one ground pad at the rear end surface of this circuit board, this ground strip of this ground pad and this shielding casing is in electrical contact, forms grounded circuit.

7. Flat cable connector assembly as claimed in claim 6, is characterized in that: this shielding casing also has at least one stator towards this containment chamber bending, and this stator is resisted against the antemarginal position of this circuit board, prevents this circuit board from stepping back.

8. Flat cable connector assembly as claimed in claim 7, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover having the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; At least one catching groove is provided with on the inner surface of this protective cover; At least one outside lug boss is formed, in order to engage with the catching groove of this enclosing cover on this shielding casing.

9. Flat cable connector assembly as claimed in claim 6, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover having the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; This enclosing cover utilizes mould with the mode of direct injection local this Flat cable component coated and this shielding casing.

10. Flat cable connector assembly as claimed in claim 1, is characterized in that: this Flat cable connector assembly also comprises a dividing plate; Form barb structure in these dividing plate both sides, fix this dividing plate in order to coordinate with this insulating body; This dividing plate inserts in this host cavity from the socket of this insulating body, and is placed on the step that formed between this flat cable and this circuit board, and is resisted against the rear edge of this circuit board.

11. Flat cable connector assemblies as claimed in claim 10, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover, have the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; At least one catching groove is provided with on the inner surface of this protective cover; At least one outside lug boss is formed, in order to engage with the catching groove of this enclosing cover on this shielding casing.

12. Flat cable connector assemblies as claimed in claim 10, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover, have the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; This enclosing cover utilizes mould with the mode of direct injection local this Flat cable component coated and this shielding casing.

13. 1 kinds of Flat cable connector assemblies, comprising: an insulating body, several conducting terminals, a shielding casing and a Flat cable component, is characterized in that:

This insulating body has an abutting end and a cable end, row's slit is formed in the bottom surface of this abutting end, form a socket in the rear surface of this cable end, this socket extends to form a host cavity in this insulating body, and wherein this host cavity is connected with these slits;

These conducting terminals are fixed in the slit of the correspondence of this insulating body;

This shielding casing has a top board, a base plate, biside plate, and one by this top board, this base plate and this biside plate around the containment chamber in order to hold this insulating body formed; This shielding casing also has at least one ground strip towards this containment chamber bending; And

This Flat cable component inserts in this host cavity of this insulating body from this socket; This Flat cable component comprises a circuit board and a flat cable, and wherein this flat cable is fixed to be formed on this circuit board and with this circuit board and is electrically connected; Several conductive spacers are formed with, in order in electrical contact with these conducting terminals in the front-end surface of this circuit board; And be formed with at least one ground pad at the rear end surface of this circuit board, and in electrical contact with this ground strip of this shielding casing, form grounded circuit.

14. Flat cable connector assemblies as claimed in claim 13, it is characterized in that: in this shielding casing all formed at least one day to the inner fovea part of this containment chamber, then form at least one groove at the outer surface of this insulating body, this inner fovea part of this shielding casing snaps in this groove of this insulating body.

15. Flat cable connector assemblies as claimed in claim 14, is characterized in that: this shielding casing also has at least one stator towards this containment chamber bending, and this stator is resisted against the antemarginal position of this circuit board, prevents this circuit board from stepping back.

16. Flat cable connector assemblies as claimed in claim 14, is characterized in that: this Flat cable connector assembly also comprises a dividing plate; Form barb structure in these dividing plate both sides, fix this dividing plate in order to coordinate with this insulating body; This dividing plate inserts in this host cavity from the socket of this insulating body, and is placed on the step that formed between this flat cable and this circuit board, and is resisted against the rear edge of this circuit board.

17. Flat cable connector assemblies as claimed in claim 16, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover, have the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; At least one catching groove is respectively provided with on the inner top surface and inner bottom surface of this protective cover; At least one outside protuberance is all formed, in order to engage with the catching groove of this enclosing cover on this top board and this base plate of this shielding casing.

18. Flat cable connector assemblies as claimed in claim 16, is characterized in that: this Flat cable connector assembly also comprises an enclosing cover, have the cable protective sleeve that a protective cover and being positioned at front end is positioned at rear end; This enclosing cover utilizes mould with the mode of direct injection local this Flat cable component coated and this shielding casing.