CN202259777U

CN202259777U - Connector of FPC (Flexible Printed Circuit board) and conductive terminal of connector

Info

Publication number: CN202259777U
Application number: CN201120284362XU
Authority: CN
Inventors: 刘大海
Original assignee: KUNSHAN JXT PRECISION ELECTRONIC TECHNOLOGY Co Ltd
Current assignee: Yi Teng Electronics (Kunshan) Co., Ltd.
Priority date: 2011-08-08
Filing date: 2011-08-08
Publication date: 2012-05-30
Anticipated expiration: 2021-08-08

Abstract

The utility model discloses a connector of a flexible circuit board and a conductive terminal of the connector. The connector comprises an insulation main body, a gland, front/back conductive terminals and a soldering terminal, wherein a plurality of equidistant front and back conductive terminal holes are arranged at the middle part of the insulation main body, the front/back conductive terminals are arranged in the front and back conductive terminal holes, the tail parts of the front/back conductive terminals are provided with C-shaped accommodation spaces, and the gland can be arranged in the tail parts through the C-shaped accommodation spaces. The connector has the following two structures, wherein one structure is that a cam structure of the gland jacks up a back arm of the back conductive terminal and also presses a back arm of the front conductive terminal downwards at the same time; and the other structure is that the cam structure of the gland jacks up back arms of the front and back terminals such that front arms of the front and back terminals press tightly the inserter FPC; therefore, a stable FPC connector structure is formed. According to the connector and the conductive terminal of the connector, no matter how the conductive terminal is under stress or products are vibrated, the conductive terminals tightly press the gland, so that the FPC can be pressed tightly in a linkage way, and the hidden trouble problem that the FPC can not be pressed tightly in the prior art is solved.

Description

Soft Circuit Board Union and conducting terminal thereof

Technical field

The utility model relates to a kind of connector, refers to it is a kind of Soft Circuit Board Union and conducting terminal thereof that is connected firmly with flexible circuit board especially.

Background technology

FPC connector is the abbreviation of Flexible Printed Circuit Connector, and Chinese implication is " Soft Circuit Board Union ".It is as flexible circuit board/bus bar connector, and its major function is to be used for all kinds of civilian mobile communication equipments and all kinds of individual terminal devices (like mobile phone, PDA, GPS, MP3/MP4, digital camera, hand-held game machine, all kinds of CD players etc.).Be to realize being connected between each functional module of this type of device interior or with the signal of external equipment or transmitting, and effects such as equipment and being communicated with of power supply or signal source, finally realize the connection of device power supply (DPS)/signal.Receive market clouts such as 3G mobile and smart mobile phone, ultrathin notebook PC demand, the current developing direction of FPC connector is: low clearance, little pitch, easy to operate, multi-functional, good Electro Magnetic Compatibility, and standardized size.

Existing Soft Circuit Board Union shown in Fig. 1-4, generally includes an insulating body 9, is inserted in the plurality of conductive terminals 8 in this insulating body 9 and rotatably is hubbed at the gland 7 on this insulating body.During use, gland 7 is upwards started, make it rotate to the enable possition, can make flexible circuit board 6 insert insulating body 9 inside through insulating body 9 positive set openings.Flexible circuit board 6 is planted behind the location; Cover this gland 7 downwards; Make it rotate to last contact site 81 and following contact site 82 relative clampings that make position makes conducting terminal 8, get final product clamping flexible circuit board 6, make and realize between this flexible circuit board 6 and the conducting terminal 8 electrically connecting in this connector inside.

Yet the design of the terminal of this connector exists the plug number of times very few, and the winding displacement confining force is difficult to control, and can't contact hidden danger such as shared up and down, to such an extent as to influence the normal defective of using of connector., the non-parallel setting of the upper arm of existing terminal and underarm is asymptotic shape.Through gland repeatedly behind the closure or openness plant flexible circuit board, thereby can cause terminal resilience difference to influence the validity that flexible circuit board is connected with connector.Therefore, the utmost point is necessary to provide a kind of improved Soft Circuit Board Union, to overcome the shortcoming that above-mentioned prior art exists.

Present stage the connector industry FPC connector cover-lifting type structure of being produced, no matter lift preceding pressure type before being, still back pressure type product; All have following hidden danger: the client is when operation; After flexible circuit board is receiving the external force bending, stressed to terminal, or product is when working under the vibrations condition; This all can be stressed to gland, and the hidden danger that causes gland to have starting causes flexible circuit board not press tightly easily, and electric current or not conducting of signal occur.

The utility model content

The purpose of the utility model is to provide a kind of Soft Circuit Board Union; Its gland is located at the rear portion and firmly is incorporated on the insulating body; Come the pressing parallel conductor layout through underarm on the terminal; Do not use the direct pressing winding displacement of gland, can avoid influencing the validity that terminal is connected with flexible circuit board, guarantee electric connection stable between flexible circuit board and the conducting terminal and make things convenient for the plant of flexible circuit board to operate because of this gland opens and closes repeatedly.

For realizing above-mentioned purpose; The utility model provides a kind of conducting terminal of Soft Circuit Board Union; Be divided into forward and backward two kinds of conducting terminals, preceding conducting terminal solder joint is positioned at front end, and then the conducting terminal solder joint is positioned at the rear end; Said two conducting terminals all have a upper arm, a underarm and connect a linking arm of this upper arm and this underarm, and this upper arm has at least two contact sites and an Actuator Division; This upper arm and underarm are set in parallel, and linking arm is a tortuous bow shape syndeton, and aforementioned conducting terminal front end is equipped with the insertion space.

The conducting terminal linking arm is positioned at the rear end before said, and the Actuator Division is positioned at the outside, middle part of upper arm; And the linking arm of aforementioned back conducting terminal is positioned at the middle part, and integral body is I-shaped formation seesaw type, and the Actuator Division is positioned at the rear inside of upper arm; The rear end of said back conducting terminal has the C shape space that is surrounded by upper arm, linking arm and underarm, and the driving section is to be positioned at an inboard half-round recessed of C shape space upper arm.

The upper arm front end of conducting terminal is higher than the rear end before said, and a bending transition region is arranged between upper arm front end and rear end, and the Actuator Division is positioned at the rear end side of bending transition region; The corresponding upper arm of the underarm of conducting terminal also is higher than the structure of rear end before said for front end, and a transition region is arranged between front end and rear end, and this transition region can be supported the bending transition region of ending upper arm.

The linking arm of said two kinds of conducting terminals is positioned at the middle part, and conducting terminal all is integral body and is I-shaped formation seesaw type.

The rear end of said two kinds of conducting terminals has the C shape space that is surrounded by upper arm, linking arm and underarm, and the driving section is to be positioned at an inboard recess of C shape space upper arm.

Be provided with the caulking groove of a horizontal direction before said between the underarm front end of conducting terminal and solder joint, caulking groove provides the strain space of underarm front end; Also be provided with at least two contact sites on the underarm of said conducting terminal.

A kind of Soft Circuit Board Union of aforementioned conducting terminal; It is characterized in that: comprise an insulating body, be inserted in some forward and backward conducting terminal, the left and right sides weld tabs in this insulating body apart from one another by arranging and be hubbed at a gland on this insulating body that this insulating body has an inserting surface that supplies flexible circuit board to peg graft; Two elastic arms that this insulating body has a base portion and extends back respectively from these base portion both sides; In this base portion that this gland is located in this insulating body and the disposal area that two kinds of elastic arms combine to surround; Can between an enable possition and a make position, change, the Actuator Division of corresponding each conducting terminal of this gland is provided with corresponding upper top or next top; In make position, the upper top of this gland or next top can hold said Actuator Division, and the contact site of aforementioned whereby conducting terminal upper arm and underarm fastens and compresses flexible circuit board.

The corresponding aforesaid conducting terminal of said gland is provided with limiting section, and this limiting section has one to cooperate spacing apart from the conducting terminal rear end, in the enable possition or make position should cooperate spacing equate all that limiting section can be corrected the conducting terminal position.

The Soft Circuit Board Union of the utility model is designed to annular through conducting terminal is connected the linking arm of going up underarm, and then has improved the force-bearing situation of underarm on the terminal, has increased the anti-plug ability of connector.

The utility model is the force structure of planning and designing conducting terminal and gland again; How stressed make conducting terminal or how product shakes, conducting terminal is all tightly pushed down gland, can interlock property press flexible circuit board like this; Promptly solve potential problem of the prior art; The utility model gland adopts and to be designed with obviously differently with traditional type, and employing reverse thinking tupe promptly adopts the lower top type structure.

Postbrachium and gland interaction force by the back conducting terminal; The opposition thinking pattern of employing and traditional pressing is carried out the lower top type structure, and rotation is grabbed axle and only moved up and down; And the stroke that it moves up and down is realized by gland bottom jack-up, is delivered to the conducting terminal front end then.Even owing to be the resilient clamp structure up and down under the arm of force distortion or shock conditions of terminal, still press gland, guarantee that the conducting terminal forearm fully contacts with flexible circuit board.

Simultaneously, below in conjunction with accompanying drawing and embodiment the utility model is further described.

Description of drawings

Fig. 1 is a prior art FPC connector structural representation.

Fig. 2 A-2B is a prior art FPC connector structure implementation step sketch map.

Fig. 3 is a conducting terminal structural representation in the prior art FPC connector.

Fig. 4 is that prior art FPC connector structural conductive terminal is implemented sketch map.

Fig. 5 is a conducting terminal structural representation behind the utility model first embodiment.

Fig. 6 is the leading electrical terminal construction sketch map of the utility model first embodiment.

Fig. 7 is the leading electrical terminal construction sketch map of the utility model second embodiment.

Fig. 8 is the forward and backward conducting terminal implementation step of the utility model first an embodiment sketch map.

Fig. 9 is the forward and backward conducting terminal implementation step of the utility model second an embodiment sketch map.

Figure 10 is applied to Soft Circuit Board Union STRUCTURE DECOMPOSITION sketch map for the forward and backward conducting terminal of the utility model first embodiment.

Figure 11 A-F is that the forward and backward conducting terminal of the utility model first embodiment is applied to implementation step sketch map behind the Soft Circuit Board Union.

Figure 12 is applied to Soft Circuit Board Union STRUCTURE DECOMPOSITION sketch map for the forward and backward conducting terminal of the utility model second embodiment.

Figure 13 is applied to Soft Circuit Board Union structural profile sketch map for conducting terminal before the utility model first embodiment.

Figure 14 is applied to Soft Circuit Board Union structural profile sketch map for conducting terminal behind the utility model first embodiment.

Figure 15 is applied to Soft Circuit Board Union structural profile sketch map for conducting terminal before the utility model second embodiment.

Figure 16 A-F is that the forward and backward conducting terminal of the utility model second embodiment is applied to implementation step sketch map behind the Soft Circuit Board Union.

Wherein:

(the utility model)

Conducting terminal hole 13 before the conducting terminal hole 12, insulating body 1 back

Back conducting terminal 2 upper arm 21 underarms 22

Linking arm 23 solder joints 24 driving sections 25

C shape space 26 contact sites, 27 contact sites 28

Preceding conducting terminal 3 upper arm 31 underarms 32

Linking arm 33 solder joints 34 bending transition regions 35

Actuator Division 36 contact sites, 37 contact sites 38

Caulking groove 39 glands 4 boss 41

Upper top 42 next tops 43 flexible circuit boards 5

(background technology part)

Flexible circuit board 6 glands 7 conducting terminals 8

81 times contact sites of last contact site, 82 insulating bodies 9.

Embodiment

For making the characteristic of the utility model, advantage can further be checked on, and below will combine specific embodiment and contrast accompanying drawing to be elaborated.

Shown in Fig. 5-7, Fig. 5 is a conducting terminal structural representation behind the utility model first embodiment, and Fig. 6 is the leading electrical terminal construction sketch map of the utility model first embodiment, and Fig. 7 is the leading electrical terminal construction sketch map of the utility model second embodiment.The utility model provides a kind of conducting terminal of Soft Circuit Board Union; Be divided into forward and backward two kinds of conducting terminals (3,2); Preceding conducting terminal 3 solder joints 34 are positioned at front end; Then conducting terminal 2 solder joints 24 are positioned at the rear end; Said two conducting terminals (3,2) all have a upper arm (21,31), a underarm (22,32) and connect a linking arm (23,33) of this upper arm and this underarm, and this upper arm (21,31) has at least two contact sites (27,37) and an Actuator Division (25,36); And also be provided with at least two contact sites (28,38) on the underarm of said conducting terminal (22,32).This upper arm (21,31) is set in parallel with underarm (22,32); Linking arm (23,33) is a tortuous bow shape syndeton; And aforementioned conducting terminal (3,2) front end is equipped with and inserts space (20,30); During use, the insertion space of proper alignment (20,30) compress connection after can supplying flexible circuit board 5 (also being called for short FFC) to insert, and contact site (27,37) can compress flexible circuit board 5 and constitute the signal connection.Linking arm (33,23) through with underarm in conducting terminal (3, the 2) connection is designed to annular, and then has improved the force-bearing situation of underarm on the terminal, has increased the anti-plug ability of connector.

And shown in Figure 10-16; Figure 10 is applied to Soft Circuit Board Union STRUCTURE DECOMPOSITION sketch map for the forward and backward conducting terminal of the utility model first embodiment; Figure 11 A-F is that the forward and backward conducting terminal of the utility model first embodiment is applied to implementation step sketch map behind the Soft Circuit Board Union; Figure 12 is applied to Soft Circuit Board Union STRUCTURE DECOMPOSITION sketch map for the forward and backward conducting terminal of the utility model second embodiment; Figure 13 is applied to Soft Circuit Board Union structural profile sketch map for conducting terminal before the utility model first embodiment; Figure 14 is applied to Soft Circuit Board Union structural profile sketch map for conducting terminal behind the utility model first embodiment; Figure 15 is applied to Soft Circuit Board Union structural profile sketch map for conducting terminal before the utility model second embodiment, and Figure 16 A-F is that the forward and backward conducting terminal of the utility model second embodiment is applied to implementation step sketch map behind the Soft Circuit Board Union.The Soft Circuit Board Union of application of aforementioned conducting terminal (3,2); Comprise an insulating body 1, be inserted in some forward and backward conducting terminal (3,2), the left and right sides weld tabs 10 in this insulating body apart from one another by arranging and be hubbed at a gland 4 on this insulating body that this insulating body 1 has an inserting surface that supplies flexible circuit board 5 to peg graft; This insulating body 1 be interval with several ccontaining aforementioned conducting terminals (3,2) preceding conducting terminal hole 13 and after lead electron aperture 12.

Shown in figure 10; Two elastic arms that this insulating body 1 has a base portion and extends back respectively from these base portion both sides; In this gland 4 is located in this insulating body 1 through both sides boss 41 this base portion and the disposal area that two kinds of elastic arms combine to surround; Can between an enable possition and a make position, change, the Actuator Division (25,36) of these gland 4 corresponding each conducting terminals is provided with corresponding upper top 42 or next top 43; In make position, the upper top 42 or the next top 43 of this gland 4 can hold said Actuator Division, and the contact site of aforementioned whereby conducting terminal upper arm and underarm fastens and compresses FFC (flexible circuit board 5).

Shown in Fig. 5-6; Fig. 5 is a conducting terminal structural representation behind the utility model first embodiment; Fig. 6 is the leading electrical terminal construction sketch map of the utility model first embodiment; Among first embodiment of the utility model conducting terminal, said preceding conducting terminal 3 linking arms 33 are positioned at the rear end, and Actuator Division 36 is positioned at the outside, middle part of upper arm 31; And the linking arm 23 of aforementioned back conducting terminal 2 is positioned at the middle part, and integral body is I-shaped formation seesaw type, and Actuator Division 25 is positioned at the rear inside of upper arm 21; The rear end of said back conducting terminal 2 has the C shape space 26 that is surrounded by upper arm 21, linking arm 23 and underarm 22, and driving section 25 is half-round recessed that are positioned at 26 upper arm, 21 inboards, C shape space.Conducting terminal and gland are designed to packaging type.Prevent to shake in the non operating state transportation and come off; Prevent to shake to come off in the operating state to cause disabler.

Specifically, shown in Fig. 5-6, upper arm 31 front ends of said preceding conducting terminal 3 are higher than the rear end, and a bending transition region 35 is arranged between upper arm front end and rear end, and Actuator Division 36 is positioned at the rear end side of bending transition region 35; The underarm 32 corresponding upper arm 31 of conducting terminal 3 also are higher than the structure of rear end before said for front end, and a transition region is arranged between front end and rear end, and this transition region can be supported the bending transition region 35 of ending upper arm 31.

Like Fig. 8,10,11,13, shown in 14; Use under the situation of the said conducting terminal of first embodiment; These gland 4 corresponding Actuator Divisions (25,36) apart from one another by the forward and backward conducting terminal of arranging also are interval with upper top 42 and next top 43; This upper top 42 is located at rotating shaft (boss 41 the is rotating shaft) upper end of this gland 4, and this upper top 42 is an axle part that can be held in conducting terminal 2 Actuator Divisions 25, back; This next top 43 is an end face being located at the rotating shaft lower end of this gland 4; In make position; The upper top 42 of this gland 4 is held in conducting terminal 2 Actuator Divisions 25, back; This next top peaks at the Actuator Division 36 of this preceding conducting terminal 3 for 43 times, aforementioned whereby conducting terminal (3,2) thus the contact site of upper arm and underarm fastens and compresses flexible circuit board 5.

As shown in Figure 7; Second embodiment for the utility model conducting terminal; In this embodiment; Identical among the back conducting terminal 2 and first embodiment, the linking arm (23,33) of two kinds of conducting terminals (2,3) so in this embodiment all is positioned at the middle part, and conducting terminal (2,3) all is integral body and is I-shaped formation seesaw type; The rear end of said two kinds of conducting terminals (2,3) has the C shape space that is surrounded by upper arm (21,31), linking arm (23,33) and underarm (22,32), and the driving section is to be positioned at an inboard recess of C shape space upper arm.So, conducting terminal and gland are designed to packaging type, can prevent to shake in the non operating state transportation to come off; Prevent to shake to come off in the operating state to cause disabler.

Like Fig. 9,12,15,16 under the situation of using the said conducting terminal of second embodiment (2,3); The also corresponding Actuator Division (36,25) apart from one another by the forward and backward conducting terminal of arranging (3,2) of this gland 4 also is interval with upper top 42; This upper top 42 is located at the rotating shaft upper end of this gland 4, and this upper top 42 is an axle part that can be held in the conducting terminal Actuator Division; In make position; The upper top of this gland is held in aforementioned conducting terminal (3,2) Actuator Division (36,25); This gland 4 can strut the rear end of said each conducting terminal (3,2) when covering, and the contact site of aforementioned whereby conducting terminal (3,2) upper arm and underarm fastens and compresses flexible circuit board 5.

In addition, among aforementioned two embodiment, shown in Fig. 5-7, underarm 32 front ends of said preceding conducting terminal 3 and the caulking groove 39 that 34 of solder joints are provided with a horizontal direction, caulking groove 39 provides the strain space of underarm 32 front ends; With this, conducting terminal 3 front ends keep certain elasticity desire degree before making.

In addition; Among aforementioned two embodiment; Shown in Figure 11 A-F, 16 A-F, said gland 4 corresponding aforesaid conducting

terminals

2,3 are provided with limiting section, and this limiting section has one to cooperate spacing apart from the conducting terminal rear end; In the enable possition or make position should cooperate spacing equate all that limiting section can be corrected the conducting terminal position.Add so anti-the benefit and proofread and correct design, conducting terminal is played correcting.

The utility model is the force structure of planning and designing conducting terminal and gland again; How stressed make conducting terminal or how product shakes, conducting terminal is all tightly pushed down gland, can interlock property press flexible circuit board 5 like this; Promptly solve potential problem of the prior art; The utility model gland adopts and to be designed with obviously differently with traditional type, and employing reverse thinking tupe promptly adopts the lower top type structure.

Postbrachium and gland interaction force by the back conducting terminal; The opposition thinking pattern of employing and traditional pressing is carried out the lower top type structure, and rotation is grabbed axle and only moved up and down; And the stroke that it moves up and down is realized by gland bottom jack-up, is delivered to the conducting terminal front end then.Even owing to be the resilient clamp structure up and down under the arm of force distortion or shock conditions of terminal, still press gland, guarantee that the conducting terminal forearm fully contacts with flexible circuit board 5.

Only the above person is merely the preferred embodiment of the utility model, when not limiting the utility model practical range with this; So, allly change and modify according to the utility model claim and the simple equivalent done of creation description, all should still belong in the scope that the utility model patent contains.

Claims

1. the conducting terminal of a Soft Circuit Board Union is divided into forward and backward two kinds of conducting terminals, and preceding conducting terminal solder joint is positioned at front end, and then the conducting terminal solder joint is positioned at the rear end, it is characterized in that:

Said two conducting terminals all have a upper arm, a underarm and connect a linking arm of this upper arm and this underarm, and this upper arm has at least two contact sites and an Actuator Division; This upper arm and underarm are set in parallel, and linking arm is a tortuous bow shape syndeton, and aforementioned conducting terminal front end is equipped with the insertion space.

2. conducting terminal as claimed in claim 1 is characterized in that: the conducting terminal linking arm is positioned at the rear end before said, and the Actuator Division is positioned at the outside, middle part of upper arm; And the linking arm of aforementioned back conducting terminal is positioned at the middle part, and integral body is I-shaped formation seesaw type, and the Actuator Division is positioned at the rear inside of upper arm; The rear end of said back conducting terminal has the C shape space that is surrounded by upper arm, linking arm and underarm, and the driving section is to be positioned at an inboard half-round recessed of C shape space upper arm.

3. conducting terminal as claimed in claim 2 is characterized in that: the upper arm front end of conducting terminal is higher than the rear end before said, and a bending transition region is arranged between upper arm front end and rear end, and the Actuator Division is positioned at the rear end side of bending transition region; The corresponding upper arm of the underarm of conducting terminal also is higher than the structure of rear end before said for front end, and a transition region is arranged between front end and rear end, and this transition region can be supported the bending transition region of ending upper arm.

4. conducting terminal as claimed in claim 1 is characterized in that: the linking arm of said two kinds of conducting terminals is positioned at the middle part, and conducting terminal all is integral body and is I-shaped formation seesaw type.

5. conducting terminal as claimed in claim 4 is characterized in that: the rear end of said two kinds of conducting terminals has the C shape space that is surrounded by upper arm, linking arm and underarm, and the driving section is to be positioned at an inboard recess of C shape space upper arm.

6. like each described conducting terminal of claim 1-5, it is characterized in that: be provided with the caulking groove of a horizontal direction before said between the underarm front end of conducting terminal and solder joint, caulking groove provides the strain space of underarm front end; Also be provided with at least two contact sites on the underarm of said conducting terminal.

7. an application rights requires the Soft Circuit Board Union of each said conducting terminal of 1-6; It is characterized in that: comprise an insulating body, be inserted in some forward and backward conducting terminal, the left and right sides weld tabs in this insulating body apart from one another by arranging and be hubbed at a gland on this insulating body that this insulating body has an inserting surface that supplies flexible circuit board to peg graft;

Two elastic arms that this insulating body has a base portion and extends back respectively from these base portion both sides; In this base portion that this gland is located in this insulating body and the disposal area that two kinds of elastic arms combine to surround; Can between an enable possition and a make position, change, the Actuator Division of corresponding each conducting terminal of this gland is provided with corresponding upper top or next top;

In make position, the upper top of this gland or next top can hold said Actuator Division, and the contact site of aforementioned whereby conducting terminal upper arm and underarm fastens and compresses flexible circuit board.

8. Soft Circuit Board Union as claimed in claim 7; Require in application rights under the situation of 2 or 3 said conducting terminals; It is characterized in that: the corresponding Actuator Division apart from one another by the forward and backward conducting terminal of arranging of this gland also is interval with upper top and next top; This upper top is located at the rotating shaft upper end of this gland, and this upper top is an axle part that can be held in conducting terminal Actuator Division, back; This next top is an end face being located at the rotating shaft lower end of this gland;

In make position, the upper top of this gland is held in conducting terminal Actuator Division, back, peaks at the Actuator Division of this preceding conducting terminal under this next top, and the contact site of aforementioned whereby conducting terminal upper arm and underarm fastens and compresses flexible circuit board.

9. Soft Circuit Board Union as claimed in claim 7; Require in application rights under the situation of 5 or 6 said conducting terminals; It is characterized in that: the corresponding Actuator Division apart from one another by the forward and backward conducting terminal of arranging of this gland also is interval with upper top; This upper top is located at the rotating shaft upper end of this gland, and this upper top is an axle part that can be held in aforementioned conducting terminal Actuator Division;

In make position, the upper top of this gland is held in aforementioned conducting terminal Actuator Division, and this gland can strut the rear end of said each conducting terminal when covering, and the contact site of aforementioned whereby conducting terminal upper arm and underarm fastens and compresses flexible circuit board.

10. like each described Soft Circuit Board Union of claim 7-9; The corresponding aforesaid conducting terminal of said gland is provided with limiting section; This limiting section has one to cooperate spacing apart from the conducting terminal rear end; In the enable possition or make position should cooperate spacing equate all that limiting section can be corrected the conducting terminal position.