CN206422268U - Flexible flat cable connector - Google Patents

Abstract

The utility model discloses a kind of flexible flat cable connector, by forming location division on multiple conducting terminals of diverse location, use and multiple positions of pressing body diverse location are positioned respectively, to limit the movement at each position of pressing body, the situation that the deformation extent at each position differs occurs because of unbalance stress so as to reduce pressing body, therefore the utility model is when in use, the deformation extent of each conducting terminal elastic arm as expected, and can ensure that the electric connection of flexible flat cable connector and flexible flat cable is normal.

Description

Flexible flat cable connector

Technical field

The utility model is related to electric connector product technical field, and in particular to a kind of preceding cover-lifting type flexible flat cable connects Connect device.

Background technology

Because flexible flat cable has the characteristic for being suitable for external environment change body, and it is widely used in various electronics In equipment, the channel transmitted as electrical signals between circuit board.Circuit board will arrange in pairs or groups with flexible flat cable, be usually provided with Flexible flat cable connector, uses and is electrically connected with flexible flat cable.

The species of flexible flat cable connector is a lot, substantially can pass through structure divide into preceding cover-lifting type, rear cover-opening type and Three kinds of drawer type, wherein, the flexible flat cable connector of former cover-lifting type is most commonly seen.In the flexible flat electricity of preceding cover-lifting type In cable connector, rotatable pressing body is set in connector body front end.The pressable conducting terminal when pressing body is rotated, compels The elastic arm of conducting terminal is deformed, and completes to be electrically connected with being plugged in flexible flat cable therein.

However, flexible flat cable connector is the demand for meeting electrical signals transmission, it will usually arrange quite a lot Conducting terminal, at present in the industry cycle even it can be seen that be equipped with the FPC connectors of nearly hundred conducting terminals, will force so many lead The elastic arm deformation of electric terminal, the increase that the span of pressing body must adapt to, the span of pressing body it is longer more easily in stress not In the case of, the deformation extent for occurring each position of pressing body differs so that each conducting terminal on flexible flat cable connector The deformation extent of elastic arm is non-as expected, seriously, can also cause flexible flat cable connector and flexible flat cable It is electrically connected with abnormal.

For example, as shown in Figure 23 and Figure 24, the middle part 341 of the pressing body 34 of flexible flat cable connector 3 Deformation extent be significantly greater than pressing body 34 both sides position 342 deformation extent so that pressing body 34 produces warpage and allowed Between the rotary shaft 3411 at position 341 leave the elastic arm 331 of conducting terminal 33, in this way, the rotation of pressing body 34 can not just make conduction The elastic arm 331 of terminal 33 is deformed, and causes the electric connection of flexible flat cable connector 3 and flexible flat cable 2 abnormal.

Based on foregoing problems, a kind of flexible flat cable connector how is provided, above-mentioned traditional flexible flat is effectively solved The variety of problems of cable connector, is the problem that industry is urgently suddenly researched and solved.

Utility model content

The technical problems to be solved in the utility model be to provide a kind of structure design more rationally, pressing stress evenly, more It can effectively engage, can guarantee that the flexible flat cable connector of signal stabilization transmission.

In order to solve the above technical problems, the utility model is adopted the following technical scheme that：A kind of flexible flat cable connector, For being electrically connected with a flexible flat cable, including：

One insulating base frame, the insulating base frame has an accommodation space, for storing the flexible flat cable；

One fastener group, the fastener group has two fasteners, and respectively the fastener is embedded in the insulating base frame, and respectively Positioned at the left and right sides of the accommodation space；

One conducting end subgroup, the conducting end subgroup has multiple first conducting terminals and multiple second conducting terminals, respectively should First, second conducting terminal is arranged in the insulator respectively；Each first conducting terminal, which has, is connected and enters the accommodation space One first on elastic arm and first time elastic arm, this on first elastic arm there is one first location division；Respectively this is second conductive Terminal, which has, to be connected and into elastic arm and second time elastic arm on the one second of the accommodation space, the elastic arm on second With one second location division；First location division has one first opening and one first rotation slot, and first opening is towards one first Direction opens first rotation slot, and the cell wall of first rotation slot extends towards a first direction；Second location division has one the Two openings and one second rotation slot, second opening open second rotation slot, the groove of second rotation slot towards a second direction Wall extends towards a second direction；And

One pressing body, the pressing body is arranged in the front end of the insulating base frame, with multiple first rotary shafts and multiple second Rotary shaft；Each first rotary shaft enters first rotation slot through the first opening, and is limited and nothing by the cell wall of first rotation slot Method is in upward out first rotation slot of the second party；Each second rotary shaft enters second rotation slot through second opening, and Limited by the cell wall of second rotation slot and second rotation slot can not be left in the first direction, with this respectively to the pressing Multiple positions of body are positioned, and the pressing body is rotated relative to the insulating base frame, are electrically connected with the flexible flat cable Touch first, second time elastic arm and complete the electric connection of flexible flat cable and conducting end subgroup.

Further, each first, second conducting terminal is staggered；Respectively first, second rotary shaft is staggered.

Further, the first direction is projected on a perspective plane of insulating base frame perpendicular to the accommodation space；Described Two are oriented parallel to the perspective plane that accommodation space is projected on the insulating base frame.

Further, pressing body also has a press section；The pressing body makes the first rotary shaft be rotated in the first rotation slot, Force on first elastic arm to drive first time elastic arm to deform, and the second rotary shaft is rotated in the second rotation slot, force the Elastic arm drives second time elastic arm deformation on two, and the press section is pressed the flexible flat cable, forces flexible flat electricity Cable is moved towards the direction of first, second time elastic arm, to make flexible flat cable be electrically connected with the conducting end subgroup.

Further, each first conducting terminal has one first elastic arm connecting portion, and the first elastic arm connecting portion is connected respectively Elastic arm and first time elastic arm on first, this on first elastic arm drive first time elastic arm through the first elastic arm connecting portion Deformation, the structure of the first elastic arm connecting portion, which has, can provide the reverse U shape profile of elastic deformation；Each second conducting terminal has One second elastic arm connecting portion, the second elastic arm connecting portion connects elastic arm and second time elastic arm on second respectively, and this Elastic arm drives second time elastic arm to deform through the second elastic arm connecting portion on two, the structure tool of the second elastic arm connecting portion There is the reverse U shape profile that elastic deformation can be provided.

Further, opposite side of two fasteners in accommodation space has a buckle slot respectively, and the pressing body also has There are two buckle blocks for corresponding respectively to the respectively buckle slot, two buckle blocks can contact the one of which of two fasteners respectively Surface, and corresponding buckle slot is respectively enterd by guiding, to be electrically connected with flexible flat cable and the conducting end subgroup When, respectively the buckle block is snapped in corresponding fastener for order, and passes through two fasteners and provide fixation to the pressing body.

Preferably, two fasteners have a guide body, and the guide body has an arcuation guiding surface, to guide two cards The one of which of button block enters corresponding buckle slot.

Further, the insulating base frame has two slots to make way, and two slots to make way are respectively positioned at the accommodation space The left and right sides, allows two fasteners to deform to provide space, two buckle blocks is smoothly respectively enterd corresponding buckle Groove.

Further, the structure of two fasteners has a reverse U shape profile, and two fasteners guide body towards mutually deviating from Direction extension.

Further, the insulating base frame is provided with two embeded slots, and two embeded slots are respectively positioned at the accommodation space The left and right sides；Two fasteners have the chimera for corresponding respectively to each embeded slot, and the chimera can respectively enter corresponding Embeded slot, so that two fasteners can be embedded in the insulating base frame respectively.

The utility model by forming location division on multiple conducting terminals of diverse location, use respectively to pressing body not Multiple positions with position are positioned, to limit the movement at each position of pressing body, so as to reduce pressing body because of unbalance stress Occurs the situation that the deformation extent at each position differs, to reach the deformation of the utility model each conducting terminal elastic arm when in use Degree as expected, and can ensure that the electric connection of flexible flat cable connector and flexible flat cable is normal.

Brief description of the drawings

Fig. 1 is the utility model three-dimensional structure diagram；

Fig. 2 is the utility model decomposition chart；

Fig. 3 is fastener structure chart；

Fig. 4 is the structural representation that the first conducting terminal is combined with insulating base frame；

Fig. 5 is A portions enlarged drawing in Fig. 4；

Fig. 6 is the structural representation splitted along line B-B in Fig. 5；

Fig. 7 is pressing body and the first conducting terminal and the structural representation of insulating base frame structure；

Fig. 8 is C portions enlarged drawing in Fig. 7；

Fig. 9 is the structural representation splitted along line D-D in Fig. 8；

Figure 10 is the structural representation that fastener is combined with pressing body, the first conducting terminal and insulating base frame；

Figure 11 is Figure 10 E portions enlarged drawing；

Figure 12 is the forward sight structure chart shown in Figure 10；

Figure 13 is the structural representation splitted along F-F lines in Figure 10；

Figure 14 is the structural representation that the second conducting terminal is combined with the first conducting terminal and insulating base frame；

Figure 15 is H portions enlarged drawing in Figure 14；

Figure 16 is the structural representation splitted along I-I lines in Figure 15；

Figure 17 is view before the utility model operation；

Figure 18 is view in the utility model operation；

Figure 19 is view after the completion of the utility model operation；

Figure 20 is the decomposition chart of conducting end subgroup and pressing body；

Figure 21 is conducting end subgroup and pressing body combination assumption diagram；

Figure 22 is the front view that conducting end subgroup is combined with pressing body；

Figure 23 is the utility model assembling process schematic flow sheet；

Figure 24 is the implementation state diagram of traditional flexible flat cable connector；

Figure 25 is the structural representation splitted along J-J lines in Figure 24.

In figure, 1 is flexible flat cable connector, and 11 be insulating base frame, and 111 be accommodation space, and 112 be slot to make way, 113 It is fastener group for embeded slot, 12,121 be fastener, and 1211 be guide body, and 12111 be arcuation guiding surface, and 1212 be buckle Groove, 1214 be chimera, and 13 be conducting end subgroup, and 131 be the first conducting terminal, and 1311 be elastic arm on first, and 13111 be the One location division, 131111 be the first opening, and 131112 be the first rotation slot, and 1312 be first time elastic arm, and 1313 be the first bullet Arm connecting portion, 132 be the second conducting terminal, and 1321 be elastic arm on second, and 13211 be the second location division, and 132111 be second Opening, 132112 be the second rotation slot, and 1322 be second time elastic arm, and 1323 be the second elastic arm connecting portion, and 14 be pressing body, 141 be press section, and 142 be the first rotary shaft, and 143 be the second rotary shaft, and 144 be buckle block, and 2 be flexible flat cable, and 3 be soft Property flat-cable connector, 33 be conducting terminal elastic arm, 34 be pressing body, and 341 be middle part, and 3411 be rotary shaft, 342 For two positions, D1 is first direction, and D2 is second direction.

Embodiment

The utility model is described further with reference to specific embodiment.

In the present embodiment, the installation step of the flexible flat cable connector refers to Figure 22, first, in step S11 In, there is provided insulating base frame 11, fastener group 12, conducting end subgroup 13 and pressing body 14 as shown in Figures 1 and 2.Fastener group 12 have two fasteners 121.Insulating base frame 11, which has, is used to storing the accommodation space 111 of flexible flat cable, and with point Not Wei Yu the left and right sides of accommodation space 111 two embeded slots 113.Conducting end subgroup 13 has multiple first conducting terminals 131 With multiple second conducting terminals 132.

Optionally, each first, second conducting terminal 131,132 is to be staggered.Pressing body 14 has multiple interlock The first rotary shaft 142 and the second rotary shaft 143 of arrangement.

In step S12, as shown in Figures 3 to 5, make each first conducting terminal 131 enter insulating base frame 11, and make each the One conducting terminal 131 is arranged in insulator 11 respectively.Each first conducting terminal 131, which has, is connected and enters accommodation space 111 First on elastic arm 1311, first time elastic arm connecting portion 1313 of elastic arm 1312 and first, the first 1313 points of elastic arm connecting portion Not Lian Jie elastic arm 1311 and first time elastic arm 1312 on first, elastic arm 1311 can pass through the first elastic arm connecting portion on first 1313 first time elastic arm 1312 of drive are deformed, in addition, the structure of the first elastic arm connecting portion 1313, which has, can provide elastic deformation Reverse U shape profile, to improve the yield strength of the first conducting terminal 131.As shown in figure 19, elastic arm 1311 has on first First location division 13111.First location division 13111 has the first opening 131111 and the first rotation slot 131112.First opening 131111 open the first rotation slot 131112 towards first direction D1.The cell wall of first rotation slot 131112 prolongs towards first direction D1 Stretch.Optionally, as shown in figure 4, first direction D1 is substantially perpendicular to the projection that accommodation space 111 is projected on insulating base frame 11 Face.

Then, in step S13, as shown in Fig. 7 to Fig. 8, pressing body 14 is made to be arranged in the front end of insulating base frame 11, its In, pressing body 14 has press section 141, the first rotary shaft 142 and two buckle blocks 144.As shown in Figure 19 to Figure 21, first turn Moving axis 142 through first opening 131111 enter the first rotation slots 131112, such pressing body 14 can opposing insulation pedestal 11 rotate, And limited by the cell wall of the first rotation slot 131112, and the first rotation slot 131112 can not be left in a second direction d 2.It is optional Selecting property, as shown in figure 8, second direction D2 is substantially parallel to the perspective plane that accommodation space 111 is projected on insulating base frame 11.

Then, in step S14, as shown in Fig. 9 to Figure 12, each fastener 121 is made to be embedded in insulating base frame 11 respectively The left and right sides of accommodation space 111.As shown in figure 3, the structure of two fasteners 121 has reverse U shape profile, and have respectively Guide body 1211, buckle slot 1212 and chimera 1214.Each buckle slot 1212 is arranged in the accommodation space 111 of insulating base frame 11 Opposite side with each buckle block 144 of correspondence.Each chimera 1214 can respectively enter the embeded slot of the left and right sides of accommodation space 111 11, thereby, each fastener 121 can be embedded in insulating base frame 11 respectively.Each buckle block 144 can contact two fasteners 121 respectively One of which surface, and corresponding buckle slot 1212 is respectively enterd by guiding, with flexible flat cable and conducting end When subgroup 13 is electrically connected with, make each buckle block 144 be snapped in corresponding fastener 121, and fixation is provided to pressing body 14.Lift For example, guide body 1211 has arcuation guiding surface 12111, and towards the direction extension mutually deviated from, to guide pressing body 14 Buckle block 144 enters corresponding buckle slot 1212.

It should be noted that as shown in Figure 10 to Figure 11, the left and right sides of the accommodation space 111 of insulating base frame 11 has two Individual slot to make way 112, allows each fastener 121 to deform to provide space, each buckle block 144 is smoothly respectively enterd corresponding Buckle slot 1212.

Afterwards, in step S15, as shown in FIG. 13 to 15, each second conducting terminal 132 is made to enter insulating base frame 11, And each second conducting terminal 132 is arranged in insulator 11 respectively, wherein, pressing body 14 has multiple second rotary shafts 143.Such as Shown in Figure 19 to Figure 21, the second rotary shaft 143 enters the second rotation slot 132112 through the second opening 132111 so that pressing body 14 Can opposing insulation pedestal 11 rotate, and by the second rotation slot

132112 cell wall limitation, and can not leave the second rotation slot 132112 in the first direction dl, so can to by Laminate 14 is positioned.

It should be noted that as shown in figure 21, pressing body 14 respectively can be by the in the mobile of first, second direction D1, D2 First, the limitation of the second location division 13111,13211, and first, second location division 13111,13211 can not be left, and due to this Utility model may be selected to set multiple staggered first, second conducting terminals 131,132, therefore can be respectively to pressing body 14 Multiple positions are positioned, and avoid pressing body 14 in the case of unbalance stress, because the deformation extent at each position differs and Produce warpage.

Furthermore, each second conducting terminal 132 have be connected and into accommodation space 111 second on elastic arm 1321, Second time elastic arm connecting portion 1323 of elastic arm 1322 and second, the second elastic arm connecting portion 1323 connects elastic arm on second respectively 1321 and second time elastic arm 1322, on second elastic arm 1321 can pass through the second elastic arm connecting portion 1323 drive second time it is elastic Arm 1322 is deformed, in addition, the structure of the second elastic arm connecting portion 1323, which has, can provide the reverse U shape profile of elastic deformation, is used Improve the yield strength of the second conducting terminal 132.As shown in figure 19, elastic arm 1321 has the second location division 13211 on second. Second location division 13211 has the second opening 132111 and the second rotation slot 132112.Second opening 132111 is towards second party The second rotation slot 132112 is opened to D2.The cell wall of second rotation slot 132112 extends towards second direction D2.

For the operation of the utility model flexible flat cable connector, please also refer to Figure 16 to Figure 18, such as each figure institute Show, pressing body 14 can be such that the first rotary shaft 142 is rotated in the first rotation slot 131112, force elastic arm 1311 on first to drive First time elastic arm 1312 is deformed, and press section 141 is pressed flexible flat cable 2, is forced under flexible flat cable 2 towards first The direction movement of elastic arm 1312, to make flexible flat cable 2 be electrically connected with the first conducting terminal 131.In addition, should illustrate It is (not shown), pressing body 14 can be such that the second rotary shaft 143 is rotated in the second rotation slot 132112, force elastic arm on second 1321 second time elastic arm 1322 of drive are deformed, and press section 141 is pressed flexible flat cable 2, force flexible flat cable 2 Towards the direction movement of second time elastic arm 1322, to make flexible flat cable 2 be electrically connected with the second conducting terminal 132.That is, Pressing body 14 can opposing insulation pedestal 11 rotate, make the first, second time elastic arm 1312 in electrical contact of flexible flat cable 2, 1322, and complete the electric connection of flexible flat cable 2 and the conducting end subgroup 13.

The utility model is described in detail above, it is described above, only the preferred embodiment of the utility model and , it is when the utility model practical range can not be limited, i.e., all to make equivalent changes and modifications according to the application scope, it all should still belong to this In utility model covering scope.

Claims (10)

1. a kind of flexible flat cable connector, for being electrically connected with a flexible flat cable, including：

One insulating base frame, insulating base frame has an accommodation space, for storing the flexible flat cable；

One fastener group, the fastener group has two fasteners, and respectively the fastener is embedded in the insulating base frame, and is located at respectively The left and right sides of the accommodation space；

One conducting end subgroup, the conducting end subgroup has multiple first conducting terminals and multiple second conducting terminals, respectively this first, Second conducting terminal is arranged in the insulator respectively；Each first conducting terminal, which has, to be connected and into the one the of the accommodation space Elastic arm and first time elastic arm on one, this on first elastic arm there is one first location division；Respectively second conducting terminal has Have and be connected and into elastic arm and second time elastic arm on the one second of the accommodation space, this on second elastic arm with one Second location division；First location division has one first opening and one first rotation slot, and first opening is opened towards a first direction First rotation slot is put, the cell wall of first rotation slot extends towards a first direction；Second location division has one second opening With one second rotation slot, second opening opens second rotation slot towards a second direction, and the cell wall of second rotation slot is towards one Second direction extends；And

One pressing body, the pressing body is arranged in the front end of the insulating base frame, is rotated with multiple first rotary shafts with multiple second Axle；Each first rotary shaft enters first rotation slot through the first opening, and limited by the cell wall of first rotation slot and can not be Upward out first rotation slot of the second party；Each second rotary shaft enters second rotation slot through second opening, and by this The cell wall of second rotation slot limits and can not leave second rotation slot in the first direction, with this respectively to the pressing body Multiple positions are positioned, and the pressing body is rotated relative to the insulating base frame, make the flexible flat cable is in electrical contact should First, second time elastic arm and the electric connection for completing flexible flat cable and conducting end subgroup.

2. flexible flat cable connector according to claim 1, it is characterised in that：Each first, second conducting terminal is handed over Mistake arrangement；Respectively first, second rotary shaft is staggered.

3. flexible flat cable connector according to claim 1, it is characterised in that：The first direction is perpendicular to the receipts Space projection is received in a perspective plane of the insulating base frame；The second direction is projected on the insulating base frame parallel to accommodation space One perspective plane.

4. flexible flat cable connector according to claim 1, it is characterised in that：Pressing body also has a press section； The pressing body makes the first rotary shaft be rotated in the first rotation slot, forces elastic arm on first to drive first time elastic arm deformation, And the second rotary shaft is rotated in the second rotation slot, force elastic arm on second to drive second time elastic arm deformation, and make this Press section presses the flexible flat cable, forces flexible flat cable to be moved towards the direction of first, second time elastic arm, to make Flexible flat cable is electrically connected with the conducting end subgroup.

5. flexible flat cable connector according to claim 4, it is characterised in that：Each first conducting terminal has one the One elastic arm connecting portion, the first elastic arm connecting portion connects elastic arm and first time elastic arm on first respectively, the elasticity on first Arm drives first time elastic arm deformation through the first elastic arm connecting portion, and the structure of the first elastic arm connecting portion, which has, can provide bullet Property deformation reverse U shape profile；Each second conducting terminal has one second elastic arm connecting portion, and the second elastic arm connecting portion connects respectively Connect elastic arm and second time elastic arm on second, this on second elastic arm through the second elastic arm connecting portion drive this second Lower elastic arm deformation, the structure of the second elastic arm connecting portion, which has, can provide the reverse U shape profile of elastic deformation.

6. flexible flat cable connector according to claim 1, it is characterised in that：Two fasteners are in accommodation space Opposite side there is a buckle slot respectively, the pressing body, which also has, corresponds respectively to two buckle blocks of the respectively buckle slot, two Buckle block can contact the surface of the one of which of two fasteners respectively, and corresponding buckle slot is respectively enterd by guiding, So that when flexible flat cable and the conducting end subgroup are electrically connected with, respectively the buckle block is snapped in corresponding fastener for order, and Through two fasteners fixation is provided to the pressing body.

7. flexible flat cable connector according to claim 6, it is characterised in that：Two fasteners have a guiding Body, the guide body has an arcuation guiding surface, to guide the one of which of two buckle blocks to enter corresponding buckle slot.

8. flexible flat cable connector according to claim 7, it is characterised in that：The insulating base frame, which has two, to be allowed Position groove, two slots to make way are located at the left and right sides of the accommodation space respectively, allow two fasteners to deform to provide space, make Two buckle blocks can smoothly respectively enter corresponding buckle slot.

9. flexible flat cable connector according to claim 7, it is characterised in that：The structure of two fasteners has U-shaped profile, and two fasteners guide body towards mutually deviate from direction extension.

10. flexible flat cable connector according to claim 1, it is characterised in that：The insulating base frame is provided with two Embeded slot, two embeded slots are located at the left and right sides of the accommodation space respectively；Two fasteners are each embedding with corresponding respectively to The chimera of groove is closed, the chimera can respectively enter corresponding embeded slot, so that can be embedded in this respectively exhausted for two fasteners Edge pedestal.