CN204045785U - Flexible flat cable connector - Google Patents

Abstract

The utility model relates to a flexible flat winding displacement connector. The utility model provides a problem how to provide a can be on flexible flat winding displacement connector repeated plug and can prevent that flexible flat winding displacement from inserting the flexible flat winding displacement connector who drops because of external force when locating flexible flat winding displacement connector. The utility model discloses a flexible flat winding displacement connector includes: the front end of the insulator is provided with a plurality of first terminal holes which are arranged in an upper-lower double row manner so as to form a first inserting space; and a plurality of terminals, each of which extends forward to the first elastic part and backward to the soldering part. The utility model discloses a usage can be on flexible flat winding displacement connector repeated plug and can prevent that flexible flat winding displacement from inserting and to drop because of external force when locating flexible flat winding displacement connector.

Description

Flexible flat bus bar connector

Technical field

The utility model relates to a kind of flexible flat bus bar connector (Flexible Flat Cable Connector), espespecially a kind of have the flexible flat bus bar connector that first plugs space, the inside of flexible flat bus bar connector arranges multiple terminal in double up and down, and the first elastic portion of multiple terminal is distributed in first plugs space in double up and down.

Background technology

As TaiWan, China announces the electric connector combination new patent case of No. M413241, (notification number of Chinese patent case is CN202503124U to prior art, the patent No. of United States Patent (USP) case is US8512071), preceding paragraph prior art mainly has insulator, circuit board and flexible flat winding displacement, this insulator is inserted with multiple terminal, and this flexible flat winding displacement and multiple terminal are reached through circuit board and are electrically connected, this circuit board also can be fixed on this insulator, the feature of managing line is not needed by flexible flat winding displacement, reason line equipment and the reason line processing procedure of known cable can be omitted, to reduce manufacture difficulty and the cost of electric connector combination.Only the flexible flat winding displacement of prior art is single setting, has larger width, and structure still has the needs of reinforcement.Moreover, the electric connector combination of prior art is after flexible flat winding displacement and circuit board are reached and be electrically connected, if flexible flat winding displacement is for departing from electric connector combination, flexible flat winding displacement and circuit board all have the anxiety of damage, therefore, cannot make flexible flat winding displacement on electric connector combination, repeat plug.

Utility model content

An object of the present utility model is, provides a kind of flexible flat bus bar connector that can repeat to come off because of external force when plugging and flexible flat winding displacement can be prevented to be inserted in flexible flat bus bar connector on flexible flat bus bar connector.

The utility model provides a kind of flexible flat bus bar connector, described flexible flat bus bar connector comprises: insulator, the front end of described insulator has multiple first end sub-aperture, and described multiple first end sub-aperture presents lower double setting, plugs space to form first; And multiple terminal, each terminal extends forward the first elastic portion, the weld part and each terminal extends back.Wherein multiple terminal is in the double inside being fixed on insulator up and down, multiple first elastic portion stretches into described first by multiple first end sub-aperture and plugs space, and multiple first elastic portion is distributed in described first plugs space in double up and down, multiple weld part distribution and expose to the rear end of insulator.

According to an embodiment, wherein said multiple weld part is arranged at second circuit board, and described second circuit board has multiple conductive part, and multiple weld part is reached with multiple conductive parts of described second circuit board and is electrically connected.

According to an embodiment, described first plugs space plugs flexible flat winding displacement, described flexible flat winding displacement has multiple first conductor and multiple second conductor, multiple first conductor and multiple second conductor part expose to the rear end of described flexible flat winding displacement, and multiple first elastic portion clamps the rear end of described flexible flat winding displacement.

According to an embodiment, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, the first shielding layer is provided with, coated 3rd shielding layer in outside of the main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, described first shielding layer extends in the middle of described first contact-segment and described second contact-segment.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate is set.

According to an embodiment, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, the first shielding layer and the second shielding layer is provided with, coated 3rd shielding layer in outside of the main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, described first shielding layer and described second shielding layer extend in the middle of described first contact-segment and described second contact-segment.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate and the second insulation support plate are set.

According to an embodiment, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, described first insulating barrier and described second insulating barrier bend with an insulating barrier to form, the first shielding layer is provided with, coated 3rd shielding layer in outside of a main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact and multiple second contact-making surface respectively, described first shielding layer extends in the middle of described first contact-segment and described second contact-segment.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate is set.

According to an embodiment, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, described first insulating barrier and described second insulating barrier bend with an insulating barrier to form, and be provided with the first shielding layer and the second shielding layer, coated 3rd shielding layer in outside of the main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, described first shielding layer and described second shielding layer extend in the middle of described first contact-segment and described second contact-segment.

According to an embodiment, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate and the second insulation support plate are set.

According to an embodiment, described first plugs space plugs flexible flat winding displacement, described flexible flat winding displacement has multiple first conductor and multiple second conductor, multiple first conductor and multiple second conductor part expose to the rear end of described flexible flat winding displacement, the rear end of described flexible flat winding displacement is provided with gripping member, and described gripping member has a pair elastic clamping hook; Described whereby gripping member is fixed in a pair fixed part of described insulator by two elastic card hooks, and multiple first elastic portion clamps the rear end of described flexible flat winding displacement, and multiple first elastic portion is in electrical contact with multiple first conductor and multiple second conductor respectively.

According to an embodiment, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is that the vertical range of multiple first conductor and multiple second conductor is greater than the double thickness of arbitrary conductor with the second insulating barrier coated multiple second conductor.

According to an embodiment, described first insulating barrier and described second insulating barrier are with glue laminating, and described first insulating barrier and described second insulating barrier are independent insulating barrier, or are formed by an insulating barrier bending.

According to an embodiment, the set-up mode of described multiple first conductor and multiple second conductor is that upper-lower position is staggered and arranges, or in upper-lower position corresponding spread configuration.

The beneficial effect that the utility model has is, the flexible flat bus bar connector provided is easy to plug flexible flat winding displacement, when flexible flat bus bar connector is arranged at second circuit board, flexible flat winding displacement and second circuit board can pass through flexible flat bus bar connector and reach electrical connection, and the visual demand of flexible flat winding displacement departs from flexible flat bus bar connector, and remove the electrical connection of second circuit board and flexible flat winding displacement, and for ease of maintenaince electronic installation (motherboard such as but not limited to personal computer or mobile computer) that connects of second circuit board, flexible flat winding displacement can repeat plug on flexible flat bus bar connector.

Another beneficial effect that the utility model has is, the flexible flat bus bar connector provided can be solid with the gripping member button of flexible flat winding displacement, come off because of external force when being inserted in flexible flat bus bar connector to prevent flexible flat winding displacement, and a pair elastic clamping hook of pressing gripping member, the button solid fraction state of flexible flat bus bar connector and gripping member can be removed, make flexible flat winding displacement exit flexible flat bus bar connector smoothly.

Feature of the present utility model, technological means, concrete function and specific embodiment, continuing is described in detail as follows with graphic, figure number.

Accompanying drawing explanation

Fig. 1 is that the utility model flexible flat bus bar connector is electrically connected on the enforcement schematic diagram of another flexible flat bus bar connector with flexible flat winding displacement.

Fig. 2 is the three-dimensional exploded view of the utility model preferred embodiment flexible flat bus bar connector.

Fig. 3 is that the utility model preferred embodiment flexible flat bus bar connector is combined with flexible flat winding displacement and departs from the schematic perspective view of second circuit board.

Fig. 4 is that the utility model preferred embodiment flexible flat bus bar connector is combined with flexible flat winding displacement and is connected to the schematic perspective view of second circuit board.

Fig. 5 is that the utility model preferred embodiment flexible flat bus bar connector is combined with flexible flat winding displacement and is connected to the generalized section of second circuit board.

Fig. 6 is that the utility model preferred embodiment flexible flat bus bar connector is combined with flexible flat winding displacement and is connected to another generalized section of second circuit board.

Fig. 7 is the floor map that the utility model second embodiment flexible flat bus bar connector and flexible flat winding displacement depart from.

Fig. 8 is the floor map that the utility model second embodiment flexible flat bus bar connector is combined with flexible flat winding displacement.

Fig. 9 is the three-dimensional exploded view of the first flexible flat winding displacement of the utility model.

Figure 10 is the stereogram of the first flexible flat winding displacement of the utility model.

Figure 11 is the generalized section of the first flexible flat winding displacement main paragraph of the utility model.

Figure 12 is the generalized section of the first flexible flat winding displacement contact-segment of the utility model.

Figure 13 is the generalized section of the utility model the second flexible flat winding displacement main paragraph.

Figure 14 is the generalized section of the utility model the second flexible flat winding displacement contact-segment.

Figure 15 is the generalized section of the third flexible flat winding displacement main paragraph of the utility model.

Figure 16 is the generalized section of the third flexible flat winding displacement contact-segment of the utility model.

Figure 17 is the generalized section of the utility model the 4th kind of flexible flat winding displacement main paragraph.

Figure 18 is the generalized section of the utility model the 5th kind of flexible flat winding displacement main paragraph.

Embodiment

Refer to shown in Fig. 1, flexible flat bus bar connector 80 of the present utility model can be electrically connected on flexible flat bus bar connector 70 by a flexible flat winding displacement 1, is inserted in flexible flat bus bar connector 70 and flexible flat bus bar connector 80 such as but not limited to flexible flat winding displacement 1 respectively with the first contact-segment 11 of front end and rear end and the second contact-segment 22; Wherein flexible flat bus bar connector 70 can be electrically connected on the first circuit board P1 (circuit board such as but not limited to hard disk or storage device) of electronic installation, and flexible flat bus bar connector 80 can be electrically connected on second circuit board P2 (motherboard such as but not limited to personal computer or mobile computer).Flexible flat bus bar connector 80 of the present utility model has the characteristic being easy to change flexible flat winding displacement 1, and flexible flat bus bar connector 80 is easy to remove the electrical connection with flexible flat bus bar connector 70.

Refer to shown in Fig. 1 to 6, in the preferred embodiment, flexible flat bus bar connector 80 of the present utility model, comprise: insulator 80a and multiple terminal 83, the front end of insulator 80a has multiple first end sub-aperture 801, multiple first end sub-aperture 801 all in upper and lower double setting, plugs space 81 to form first; Each terminal 83 extends forward the first elastic portion 831, a weld part 832 and each terminal 83 extends back; Wherein multiple terminal 83 in the double inside being fixed on insulator 80a up and down (such as: insulator 80a inside has multiple slotted eye 803, snap fit 833 build-in of each terminal 83 is in each slotted eye 803), multiple first elastic portion 831 stretches into first by multiple first end sub-aperture 801 and plugs space 81, and multiple first elastic portion 831 is distributed in first plugs space 81 in double up and down, multiple weld part 832 distributes and exposes to the rear end of insulator 80a; Multiple whereby weld part 832 can be arranged at a second circuit board P2, and second circuit board P2 has multiple conductive part P25, and multiple weld part 832 is reached with multiple conductive part P25 of second circuit board P2 and is electrically connected (as shown in Fig. 2,5 and 6).Moreover, first plugs space 81 can plug flexible flat winding displacement 1, flexible flat winding displacement 1 has multiple first conductor 50 and multiple second conductor 60, multiple first conductor 50 and multiple second conductor 60 part expose to a rear end 11b of flexible flat winding displacement 1, when first plug space 81 plug the rear end 11b of flexible flat winding displacement 1 time, multiple first elastic portion 831 can clamp the rear end 11b of flexible flat winding displacement 1, simultaneously, multiple first elastic portion 831 is distinctly in electrical contact with multiple first conductor 50 and multiple second conductor 60, so, flexible flat winding displacement 1 can repeat plug on flexible flat bus bar connector 80.

Enumerate the enforcement aspect of flexible flat bus bar connector 80 and flexible flat winding displacement 1, effect of mode of operation and institute's gain is as rear: flexible flat winding displacement 1 is with coated multiple first conductor 50 of the first insulating barrier 10, and flexible flat winding displacement 1 is with coated multiple second conductor 60 of the second insulating barrier 20, the first shielding layer 31 is provided with in the middle of first insulating barrier 10 and the second insulating barrier 20, flexible flat winding displacement 1 can coated 3rd shielding layer 33 in the outside of main paragraph 12, first contact-making surface 51 of multiple first conductor 50 exposes to the first contact-segment 11 of the first insulating barrier 10, second contact-making surface 62 of multiple second conductor 60 exposes to the second contact-segment 22 of the second insulating barrier 20, wherein when first plug space 81 plug the rear end 11b of flexible flat winding displacement 1 time, multiple first elastic portion 831 can clamp the rear end 11b of the flexible flat winding displacement 1 that the first contact-segment 11 and the second contact-segment 22 are formed, meanwhile, multiple first elastic portion 831 is distinctly in electrical contact with multiple first contact-making surface 51 and multiple second contact-making surface 62.Therefore, flexible flat bus bar connector 80 is easy to plug flexible flat winding displacement 1, make second circuit board P2 and flexible flat winding displacement 1 can pass through flexible flat bus bar connector 80 and reach electrical connection, and the visual demand of flexible flat winding displacement 1 departs from flexible flat bus bar connector 80, and remove the electrical connection (as shown in Figure 4) of second circuit board P2 and flexible flat winding displacement 1, whereby, the for ease of maintenaince electronic installation that connects of second circuit board P2, and flexible flat winding displacement 1 can repeat plug on flexible flat bus bar connector 80.

Refer to shown in Fig. 7 to 8, in a second embodiment, flexible flat bus bar connector 80 of the present utility model can be provided with a pair fixed part 89 in the outside of insulator 80a further, and the rear end 11b of flexible flat winding displacement 1 can be provided with a gripping member 90; Wherein gripping member 90 has a pair elastic clamping hook 91, and the rear end 11b of flexible flat winding displacement 1 can be fixed in two fixed parts 89 of insulator 80a by two elastic clamping hook 91 buttons, come off because of external force to prevent flexible flat winding displacement 1 from flexible flat bus bar connector 80.When making flexible flat winding displacement 1 depart from flexible flat bus bar connector 80, can press two elastic clamping hooks 91, make two elastic clamping hooks 91 depart from two fixed parts 89 of insulator 80a, then flexible flat winding displacement 1 can exit flexible flat bus bar connector 80 smoothly.

Refer to shown in Fig. 9 to 12, the first flexible flat winding displacement 1 of the present utility model comprises: the first insulating barrier 10, second insulating barrier 20, first shielding layer 31 and the second shielding layer 32; First insulating barrier 10 is coated with multiple first conductor 50, first insulating barrier 10 and has the first contact-making surface 51 that the first contact-segment 11, first contact-segment 11 exposes multiple first conductor 50 in front end; Second insulating barrier 20 is coated with multiple second conductor 60, second insulating barrier 20 and has the second contact-making surface 62 that the second contact-segment 22, second contact-segment 22 exposes multiple second conductor 60 in front end; First shielding layer 31 and the second shielding layer 32 are arranged in the middle of the first insulating barrier 10 and the second insulating barrier 20 (such as with glue laminating); Wherein the first contact-making surface 51 of multiple first conductor 50 upwards exposes to the first contact-segment 11, and the second contact-making surface 62 of multiple second conductor 60 exposes to the second contact-segment 22 downwards; Use the width making flexible flat winding displacement 1 reduce overall winding displacement in double setting, and flexible flat winding displacement 1 by the structure of the first insulating barrier 10, first shielding layer 31, second shielding layer 32 and the sequentially laminated setting of the second insulating barrier 20, and can increase the intensity of overall winding displacement.Multiple first conductor 50 can be staggered in upper-lower position with the set-up mode of multiple second conductor 60 and arrange (as shown in Figure 11,12), or is the corresponding spread configuration of upper-lower position (figure does not show), to reach different high frequency characteristicses.

Moreover, first insulating barrier 10 can have another first contact-segment 11 in rear end, another first contact-making surface 51 of multiple first conductor 50 upwards exposes to the first contact-segment 11 of the first insulating barrier 10 rear end, and the second insulating barrier 20 can have another second contact-segment 22 in rear end, another second contact-making surface 62 of multiple second conductor 60 exposes to the second contact-segment 22 of the second insulating barrier 20 rear end downwards.In addition, first shielding layer 31 and the second shielding layer 32 may extend in the middle of the first contact-segment 11 and the second contact-segment 22, to increase structural strength and screening effect, or, in the middle of first contact-segment 11 and the second contact-segment 22, first insulation support plate 41 and the second insulation support plate 42 can be set, to increase structural strength and insulation effect.First shielding layer 31 and the second shielding layer 32 can select aluminium foil, Teflon, acetic acid adhesive plaster or any material with ELECTROMAGNETIC OBSCURANT effect.Aluminium foil, Teflon, acetic acid adhesive plaster or any material with ELECTROMAGNETIC OBSCURANT effect can be selected by coated 3rd shielding layer the 33, three shielding layer 33 further outside main paragraph 12.

Refer to shown in Figure 13 to 14, the second flexible flat winding displacement 1a is roughly the same with the flexible flat winding displacement 1 of preferred embodiment, both difference places are only: only arrange the first shielding layer 31 in the middle of the first insulating barrier 10 and the second insulating barrier 20, in the middle of first contact-segment 11 and the second contact-segment 22, first insulation support plate 41 is only set, and is also the enforceable mode of the utility model.

Refer to shown in Figure 15 to 16, the third flexible flat winding displacement 1b is roughly the same with the flexible flat winding displacement 1 of preferred embodiment, both difference places are only: the first insulating barrier 10 and the second insulating barrier 20 bend with an insulating barrier to form, can by the first insulating barrier 10, first shielding layer 31 and the second insulating barrier 20 is sequentially laminated is arranged to flexible flat winding displacement 1b; Wherein the first shielding layer 31 can be arranged in individual layer and in the first insulating barrier 10 and the second insulating barrier 20 centre (such as with glue laminating), or, can the double-decker of the first shielding layer 31 and the second shielding layer 32 be bent into by a shielding layer and be arranged in the middle of the first insulating barrier 10 and the second insulating barrier 20.Moreover, in the middle of first contact-segment 11 and the second contact-segment 22, the first insulation support plate 41 is only set, or, first contact-segment 11 and the second contact-segment 22 centre can arrange the first insulation support plate 41 and the second insulation support plate 42, first insulation support plate 41 and the second insulation support plate 42 also can by same insulation support plate bending forming.Multiple first conductor 50 can be staggered in upper-lower position with the set-up mode of multiple second conductor 60 and arrange (as shown in Figure 15,16), or is the corresponding spread configuration of upper-lower position (figure does not show), to reach different high frequency characteristicses.

Refer to shown in Figure 17,4th kind of flexible flat winding displacement 1c is roughly the same with the flexible flat winding displacement 1 of preferred embodiment, both difference places are only: flexible flat winding displacement 1c is only formed (such as with glue laminating) by the first insulating barrier 10 and the sequentially laminated setting of the second insulating barrier 20, first insulating barrier 10 and the second insulating barrier 20 can be independent insulating barrier, or the first insulating barrier 10 and the second insulating barrier 20 can be bent by an insulating barrier and form (such as with glue laminating); Wherein multiple first conductor 50 and the vertical range vd of multiple second conductor 60 are greater than the double thickness of multiple first conductor 50, or multiple first conductor 50 and the vertical range vd of multiple second conductor 60 are greater than the thickness of multiple second conductor 60, multiple first conductor 50 can be staggered in upper-lower position with the set-up mode of multiple second conductor 60 and arrange, to reach required high frequency characteristics.

Refer to shown in Figure 18,5th kind of flexible flat winding displacement 1d is roughly the same with the flexible flat winding displacement 1 of preferred embodiment, both difference places are only: flexible flat winding displacement 1d is only formed (such as with glue laminating) by the first insulating barrier 10 and the sequentially laminated setting of the second insulating barrier 20, and the first insulating barrier 10 and the second insulating barrier 20 also can be bent by an insulating barrier and form (such as with glue laminating); Wherein multiple first conductor 50 and the vertical range vd of multiple second conductor 60 are greater than the double thickness of multiple first conductor 50, or multiple first conductor 50 and the vertical range vd of multiple second conductor 60 are greater than the thickness of multiple second conductor 60, multiple first conductor 50 can be the corresponding spread configuration of upper-lower position with the set-up mode of multiple second conductor 60, to reach required high frequency characteristics.

Claims (19)

1. a flexible flat bus bar connector, is characterized in that, described flexible flat bus bar connector comprises:

Insulator, the front end of described insulator has multiple first end sub-aperture, and described multiple first end sub-aperture presents lower double setting, plugs space to form first; And

Multiple terminal, each terminal extends forward the first elastic portion, the weld part and each terminal extends back,

Wherein multiple terminal is in the double inside being fixed on insulator up and down, multiple first elastic portion stretches into described first by multiple first end sub-aperture and plugs space, and multiple first elastic portion is distributed in described first plugs space in double up and down, multiple weld part distribution and expose to the rear end of insulator.

2. flexible flat bus bar connector according to claim 1, it is characterized in that, wherein said multiple weld part is arranged at second circuit board, and described second circuit board has multiple conductive part, and multiple weld part is reached with multiple conductive parts of described second circuit board and is electrically connected.

3. flexible flat bus bar connector according to claim 1, it is characterized in that, described first plugs space plugs flexible flat winding displacement, described flexible flat winding displacement has multiple first conductor and multiple second conductor, multiple first conductor and multiple second conductor part expose to the rear end of described flexible flat winding displacement, and multiple first elastic portion clamps the rear end of described flexible flat winding displacement.

4. flexible flat bus bar connector according to claim 3, it is characterized in that, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, the first shielding layer is provided with, coated 3rd shielding layer in outside of the main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

5. flexible flat bus bar connector according to claim 4, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, described first shielding layer extends in the middle of described first contact-segment and described second contact-segment.

6. flexible flat bus bar connector according to claim 4, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate is set.

7. flexible flat bus bar connector according to claim 3, it is characterized in that, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, the first shielding layer and the second shielding layer is provided with, coated 3rd shielding layer in outside of the main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

8. flexible flat bus bar connector according to claim 7, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, described first shielding layer and described second shielding layer extend in the middle of described first contact-segment and described second contact-segment.

9. flexible flat bus bar connector according to claim 7, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate and the second insulation support plate are set.

10. flexible flat bus bar connector according to claim 3, it is characterized in that, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, described first insulating barrier and described second insulating barrier bend with an insulating barrier to form, the first shielding layer is provided with, coated 3rd shielding layer in outside of a main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

11. flexible flat bus bar connectors according to claim 10, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact and multiple second contact-making surface respectively, described first shielding layer extends in the middle of described first contact-segment and described second contact-segment.

12. flexible flat bus bar connectors according to claim 10, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate is set.

13. flexible flat bus bar connectors according to claim 3, it is characterized in that, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, described first insulating barrier and described second insulating barrier bend with an insulating barrier to form, and be provided with the first shielding layer and the second shielding layer, coated 3rd shielding layer in outside of the main paragraph of described flexible flat winding displacement in the middle of described first insulating barrier and described second insulating barrier.

14. flexible flat bus bar connectors according to claim 13, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, described first shielding layer and described second shielding layer extend in the middle of described first contact-segment and described second contact-segment.

15. flexible flat bus bar connectors according to claim 13, it is characterized in that, first contact-making surface of described multiple first conductor exposes to the first contact-segment of described first insulating barrier, second contact-making surface of multiple second conductor exposes to the second contact-segment of described second insulating barrier, multiple first elastic portion described first contact-segment of clamping and described second contact-segment, and multiple first elastic portion is in electrical contact with multiple first contact-making surface and multiple second contact-making surface respectively, in the middle of described first contact-segment and described second contact-segment, the first insulation support plate and the second insulation support plate are set.

16. flexible flat bus bar connectors according to claim 1, it is characterized in that, described first plugs space plugs flexible flat winding displacement, described flexible flat winding displacement has multiple first conductor and multiple second conductor, multiple first conductor and multiple second conductor part expose to the rear end of described flexible flat winding displacement, the rear end of described flexible flat winding displacement is provided with gripping member, and described gripping member has a pair elastic clamping hook; Described whereby gripping member is fixed in a pair fixed part of described insulator by two elastic card hooks, and multiple first elastic portion clamps the rear end of described flexible flat winding displacement, and multiple first elastic portion is in electrical contact with multiple first conductor and multiple second conductor respectively.

17. flexible flat bus bar connectors according to claim 3, it is characterized in that, described flexible flat winding displacement is with coated multiple first conductor of the first insulating barrier, and described flexible flat winding displacement is with coated multiple second conductor of the second insulating barrier, the vertical range of multiple first conductor and multiple second conductor is greater than the double thickness of described multiple first conductor, or is greater than the thickness of described multiple second conductor.

18. flexible flat bus bar connectors according to claim 17, it is characterized in that, described first insulating barrier and described second insulating barrier are with glue laminating, and described first insulating barrier and described second insulating barrier are independent insulating barrier, or are formed by an insulating barrier bending.

19. flexible flat bus bar connectors according to claim 17, is characterized in that, the set-up mode of described multiple first conductor and multiple second conductor is that upper-lower position is staggered and arranges, or in upper-lower position corresponding spread configuration.