CN102810775B

CN102810775B - Connector for flat cable

Info

Publication number: CN102810775B
Application number: CN201110320575.8A
Authority: CN
Inventors: 浅井清
Original assignee: SMK Corp
Current assignee: SMK Corp
Priority date: 2011-06-02
Filing date: 2011-10-20
Publication date: 2015-02-11
Anticipated expiration: 2031-10-20
Also published as: JP2012252864A; TWI501475B; CN102810775A; KR101438564B1; JP5181399B2; KR20120134991A; TW201251214A

Abstract

Provided is a connector for a flat cable, and the connector can be used to easily and reliably install a flat cable, and realize reduced thickness. A housing (102) of the connector (101) for a flat cable has a top surface part (111), a first side part (112) and a second side part (113) and is hollow. A top surface opening part (121) is located at an opening of the top surface part, permissionthe passing of an FPC (Flexible Printed Circuit) cable. A front end side opening part (122) is connected to the top surface opening part and is located at an opening of the first side part, permissionthe sliding movement of a stiffening plate. An extending side opening part (123) is connected to the top surface opening part and is located at an opening of the second side part, permissionthe sliding movement of a cable body. A first disengagement preventing part (103) is arranged on the housing, blocking an end face of a swing part of the stiffening plate which moves towards the second side part. A second disengagement preventing part (104) is arranged in the housing at one side which is closer to the first side part than the first disengagement prevention part, blocking the stiffening plate (304) which is located in the housing and moves towards the top surface part.

Description

Flat cable connector

Technical field

The present invention relates to the flat cable connector about the connection for flat cables such as flexible print wiring (Flexible Printed Circuit, FPC) cables.

Background technology

Patent documentation 1 records flat cable connector, and the side surface part that the end face of insulator 1 and FPC cable 4 extend side is given opening by it, and is provided with the grab 3 for being locked to by FPC cable 4 in peristome in the peristome both end sides of insulator 1.According to patent documentation 1, time in peristome FPC cable 4 being filled in flat cable connector, the two ends of the stiffening plate be sticked integratedly at the end face of FPC cable 4 push away and strut grab 3 and FPC cable 4 is passed, FPC cable 4 is connected to the contact 2 be housed in peristome, grab 3 resilience is playbacked, and grab 3 keeps the connection status between FPC cable 4 and contact 2.

In the flat cable connector that patent documentation 1 is recorded, be provided with peristome at end face, grab is set in peristome both end sides, thereby, it is possible to install FPC cable 4 simply in vertical direction, moreover, prevent FPC cable 4 coming off in the vertical direction.

But, miniaturized and slimming are required to this flat cable connector.In this, patent documentation 1 record flat cable connector in grab 3 extend on the thickness direction of cable 4 and be difficult to realize slimming.

Patent documentation:

[patent documentation 1] Japanese Utility Model registers No. 2571826 publication

Summary of the invention

The present invention puts in view of the above problems and makes, and object is to provide a kind of flat cable connector, can install flat cable simply and can realize slimming.

Flat cable connector of the present invention, is configured on substrate, and for installing flat cable, this flat cable possesses: the cable body of flat; Portion of terminal, is located at the plane domain of described cable body; And stiffening plate, be located at the end regions of described cable body, there is the alar part outstanding to Width both sides relative to this cable body; This flat cable connector comprises: shell, have substantially in parallel towards described substrate top part with the 1st sidepiece and the 2nd sidepiece that the direction that intersects with described substrate extends respectively from two the opposite edges described top part and form hollow, and be provided with: end face peristome, allows passing through of described flat cable at described top part opening; Front peristome, is connected to described end face peristome and in described 1st side mouth, allows the sliding of described stiffening plate; And extend side opening portion, be connected to described end face peristome and in the 2nd side mouth, allow the sliding of described cable body; Contact, is configured at the interior bottom side of described shell, contacts described portion of terminal; 1st prevents tear-away portion, is located at described shell, and stop will to the end face of the alar part of the described stiffening plate of described 2nd lateral side movement; And the 2nd prevents tear-away portion, prevent tear-away portion to be more positioned at described 1st lateral side in the housing than the described 1st, stop is positioned at described shell and will to the described stiffening plate of described top part side movement.

(invention effect)

According to flat cable connector of the present invention, make stiffening plate be positioned at the 1st lateral side, make flat cable by end face peristome, and flat cable is stretched to the 2nd lateral side, then the alar part of stiffening plate is stuck in the 1st and prevents tear-away portion, and stiffening plate is prevented tear-away portion and contact from clamping by the 2nd.So, can easily and reliably flat cable is installed.In addition, because stiffening plate is prevented tear-away portion and contact from clamping by the 2nd, so the grab 3 recorded in patent documentation 1 need not be arranged, slimming can be realized.

Accompanying drawing explanation

Fig. 1 is the stereogram of the flat cable connector in the first execution mode.

Fig. 2 is the stereogram of the FPC cable in the first execution mode.

Fig. 3 is in the first execution mode, be in FPC cable is installed state under the stereogram of flat cable connector.

Fig. 4 is in the first execution mode, with the stereogram of the flat cable connector of the angle views different from Fig. 1.

Fig. 5 is the stereogram of the flat cable connector of sides in the first execution mode, different from observable side in Fig. 1.

Fig. 6 is the vertical view of the flat cable connector in the first execution mode.

Fig. 7 is the upward view of the flat cable connector in the first execution mode.

Fig. 8 is the front view of the flat cable connector in the first execution mode.

Fig. 9 is the view along arrow P direction in Fig. 6 in the first execution mode.

Figure 10 is the rearview of the flat cable connector in the first execution mode.

Figure 11 is in the first execution mode, represents the stereogram of the flat cable connector of the state that FPC cable is passed through from end face peristome.

Figure 12 is in the first example, represents the stereogram installed with the flat cable connector of the state of the difform FPC cable of Fig. 2.

Figure 13 is the vertical view of the flat cable connector in the second execution mode.

Description of reference numerals

101 flat cable connector 102 shells

103 the 1st prevent tear-away portion 104 the 2nd from preventing tear-away portion

105 contact 111 top parts

The long limit of 111A, 111B (the two opposite limits in top part)

112 the 1st sidepiece 113 the 2nd sidepieces

121 end face peristome 122 front peristomes

123 extend side opening portion 126 leader label

201 substrate 301FPC cables (flat cable)

302A portion of terminal 303 cable body

1st (plane domain of cable body) of 303B cable body

304 stiffening plate 304A alar parts

353 cable bodies

Embodiment

Below, according to Fig. 1 to Figure 12, one embodiment of the present invention is described.For convenience of description, present embodiment is called the first execution mode.

Fig. 1 is the stereogram of flat cable connector 101.Flat cable connector 101 is configured on substrate 201 (with reference to Fig. 3), and press section 102A is fixed by modes such as Reflow Solderings.Flat cable connector 101 can be provided with the FPC cable 301 (with reference to Fig. 2) as flat cable, is electrically connected with the printed wiring 202 (with reference to Fig. 3) on substrate 201 flexible printed 302 (with reference to Fig. 2) in FPC cable 301.

Fig. 2 is the stereogram of FPC cable 301.FPC cable 301 has cable body 303.Cable body 303 is formed to have flexible material, and becomes tabular.Wide width part 303A is formed in the end of cable body 303.Wide width part 303A is past protruding outside at the Width two of cable body 303.Cable body 303 is formed many flexible printed 302.These flexible printed 302 are arranged in roughly at equal intervals on the Width of cable body 303, and all extend on the length direction of cable body 303.The portion of terminal 302A of rectangle is provided with in each end of flexible printed 302.Portion of terminal 302A is configured in wide width part 303A or near it, and is exposed to the wherein one side (the 1st 303B) of cable body 303.This 1st 303B is equivalent to " plane domain of cable body " recorded in claims.In addition, shown in Fig. 2 is the another side (the 2nd 303C) of cable body 303, and the 1st 303B cannot see in fig. 2.

At the end regions of the another side (the 2nd 303C) of cable body 303, stiffening plate 304 is installed.Stiffening plate 304 is harder than cable body 303, and utilizes the flat material equal or thicker with cable body 303 to be formed.When overlooking, the wider convex shape that the part that stiffening plate 304 can see cable body 303 combines with wide width part 303A.Stiffening plate 304 comprises alar part 304A.Alar part 304A is outstanding to Width both sides relative to cable body 303, and when overlooking, observed one-tenth is consistent with the wide width part 303A of cable body 303.In addition, by utilizing conductive metal plate to form stiffening plate 304, the shielding of this part for extraneous electromagnetic noise can be promoted.

Fig. 3 is the stereogram being in the flat cable connector 101 installed under FPC cable 301 state.Flat roughly rectangular-shaped of 102 one-tenth, the shell of flat cable connector 101 when overlooking in the form of a substantially rectangular, and is hollow.Shell 102 is formed along end face, visible end face is connected with the other end being positioned at its opposition side on the downside of the paper of Fig. 3 opening.When FPC cable 301 is mounted to flat cable connector 101, the stiffening plate 304 of FPC cable 301 is placed in visible end face side on the downside of the paper of Fig. 3 by operator, and after making the opening of FPC cable 301 by shell 102, the bearing of trend (arrow K direction Fig. 3 shown in) of FPC cable 301 to cable body 303 is stretched.Thus, stiffening plate 304 sliding enters in shell 102, is stuck in be located at the 1st on shell 102 and to prevent tear-away portion 103, makes stiffening plate 304 be located at the 2nd of shell 102 and prevents tear-away portion 104 and contact 105 from clamping and fixing.Now, contact 105 contacts the portion of terminal 302A (with reference to Fig. 2) of FPC cable 301, is electrically connected with the printed wiring 202 on substrate 201 flexible printed 302 (with reference to Fig. 2) in FPC cable 301, can realizes the transmission of the signal of telecommunication.When being taken off from flat cable connector 101 by FPC cable 301, stiffening plate 304 is released to end face side (direction contrary with arrow K) visible on the downside of the paper of Fig. 3 by operator.

Fig. 4 is with the stereogram of the flat cable connector 101 of the angle views different from Fig. 1.Fig. 5 is the stereogram of the flat cable connector 101 of different side, side visible from Fig. 1.Fig. 6 is the vertical view of flat cable connector 101.Fig. 7 is the upward view of flat cable connector 101.Fig. 8 is the front view of flat cable connector 101.Fig. 9 is the view in the arrow P direction along Fig. 6.Figure 10 is the rearview of flat cable connector 101.Below, the structure detail of flat cable connector 101 is described with reference to Fig. 1, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10.

Flat cable connector 101 has shell 102 and contact 105.Shell 102 is made up of press section 102A and resin portion 102B.Metal punching processing is formed by press section 102A.The bending place 102Aa of press section 102A has circular arc degree, is easy to FPC cable 301 to be imported.Resin portion 102B be utilize resin bury underground the contact 105 of parallel arranged a part and by one-body molded and formed together with the 102A of press section.In addition, alternatively, also can, different in shape from the press section 102A of shape shown in Fig. 1 etc., the press section formed with sheet metal be utilized to carry out ester moulding, as result sheet metal part and resin portion merged, be configured as the shell 102 shown in Fig. 1 etc.

Shell 102 has top part 111, the 1st sidepiece 112, the 2nd sidepiece 113, bottom surface sections 114, and becomes hollow.Be used for flat cable connector 101 to be fixed on the coating of solder on substrate 201 (with reference to Fig. 3) or bonding agent, be to the bottom surface side of bottom surface sections 114, the region (with the region of oblique line display in Fig. 7) that is made up of press section 102A carries out.When flat cable connector 101 is fixed on substrate 201, top part 111 is substantially in parallel towards substrate 201.In addition, now the 1st sidepiece 112 and the 2nd sidepiece 113 extend (reference Fig. 3) from two opposite long limits 111A, 111B (being only shown in Fig. 1) top part 111 respectively to the direction (being preferably substantially vertical direction) intersected with substrate 201.

Shell 102 is provided with end face peristome 121, front peristome 122 and extends side opening portion 123.

End face peristome 121 at top part 111 opening, and is formed as allowing the shape passed through at above-below direction of flat cable connector 101.That is, the width dimensions of end face peristome 121 at least equal with the width dimensions of cable body 303 or larger (reference Fig. 3 and Figure 11).

Front peristome 122 is connected on end face peristome 121, and at the 1st sidepiece 112 opening.Front peristome 122 opening becomes to allow the shape of stiffening plate 304 sliding, and the sliding of this stiffening plate 304 is towards the direction of connection the 1st sidepiece 112 and the 2nd sidepiece 113, with the almost parallel movement of bottom surface sections 114.That is, the width dimensions of front peristome 122 is equal with the width dimensions of stiffening plate 304 or larger, and the height dimension of front peristome 122 is equal with the thickness of stiffening plate 304 or larger.In addition, peripheral part 122A of front peristome 122 is through chamfered, and stiffening plate 304 is directed into front peristome 122 and becomes easy by operator.

Extend side opening portion 123 to be connected on end face peristome 121, and at the 2nd sidepiece 113 opening.Extend the shape that side opening portion 123 opening becomes to allow cable body 303 sliding, this cable body 303 towards connection the 1st sidepiece 112 and the 2nd sidepiece 113 direction, move substantially in parallel with bottom surface sections 114.That is, the width dimensions extending side opening portion 123 is equal with the width dimensions of cable body 303 or larger, and the height dimension extending side opening portion 123 is equal with the thickness of cable body 303 or larger.

Central portion 124 and side opening portion 125 is formed in the bottom surface sections 114 of shell 102.Central portion 124 and side opening portion 125 all as carry out resin integrally formed time the mistake correspondence of cutting and formed.During ester moulding, between central portion 124 and side opening portion 125, be formed with reinforcing body support sector 127.The strip that the direction that reinforcing body support sector 127 is formed in connection the 1st sidepiece 112 side and the 2nd sidepiece 113 side extends, becomes the same face with the end face of bottom surface sections 114.

Contact 105 is configured at the interior bottom side of shell 102, is arranged with multiple at the Width of shell 102.For each contact 105, are all regions that the part (with the part that Reference numeral 105A represents in Fig. 6) in the stage casing of contact 105 is embedded in the 1st sidepiece 112 side of resin portion 102B.The number of contact 105 and position, corresponding to number and the position of the portion of terminal 302A be arranged on FPC cable 301.Contact 105 comprises: substrate connecting portion 105B, more protrudes from the 1st sidepiece 112 side, and be connected to substrate 201 than the bottom surface sections 114 formed by resin portion 102B; And strain portion 105C, be more positioned at top than bottom surface sections 114 and protrude from the 2nd sidepiece 113 side, and being positioned at the top of central portion 124.Portion of terminal 302A (with reference to Fig. 2) the contact resilient variant part 105C of FPC cable 301, the portion of terminal 302A of this FPC cable 301 is positioned at shell 102 by end-side openings portion 122 slippage of stiffening plate 304 the past being inserted.

With reference to Fig. 1, Fig. 2, Fig. 3, Fig. 8 and Fig. 9.Be located at shell 102 the 1st prevents tear-away portion 103, stops and is positioned at shell 102 and will, to the end face 304B of the 2nd sidepiece 113 side of the alar part 304A of the stiffening plate 304 of the 2nd sidepiece 113 side movement, prevents stiffening plate 304 from coming off from extension side opening portion 123 further.

Be located at shell 102 the 2nd prevents tear-away portion 104, be arranged to prevent tear-away portion 103 closer to the 1st sidepiece 112 side than the 1st, extend on the Width of flat cable connector 101 abreast with top part 111 and the direction, inner side of past flat cable connector 101 expels, and become the same face with the end face of top part 111.2nd prevents tear-away portion 104 from stopping the end face 304C being positioned at the stiffening plate 304 of shell 102, and prevention stiffening plate 304 will to the tendency of top part 111 side movement.

At the end face of the bottom surface sections 114 of shell 102, be provided with leader label 126.Leader label 126 is for the visual location confirming stiffening plate 304.Leader label 126 is arranged in shell 102 to the 2 and prevents tear-away portion 104 closer to the 1st sidepiece 112 side, and than the outside of contact 105 closer to the Width of flat cable connector 101.Leader label 126 is when contact 105 is integrally formed with press section 102A, utilizes the mold (not shown) for the formation of the resin portion top surface side of shell 102, makes it cave in from the end face of resin portion 102B toward below and form linear.

Figure 11 is the stereogram of the flat cable connector 101 representing the state that FPC cable 301 is passed through from end face peristome 121.In Figure 11, FPC cable 301 represents with single dotted broken line.When FPC cable 301 is installed to flat cable connector 101, operator has held stiffening plate 304 and the cable body 303 of FPC cable 301, and this stiffening plate 304 is placed in the 1st sidepiece 112 side of flat cable connector 101.Secondly, operator makes FPC cable 301 move up from the 1st sidepiece 112 towards the side of the 2nd sidepiece 113, make cable body 303 sliding and by the end face peristome 121 of flat cable connector 101, make cable body 303 mobile along the bottom surface sections 114 (with reference to Fig. 5, Fig. 8 etc.) of flat cable connector 101.Now, cable body 303 passes through to extend side opening portion 123 from the inside of shell 102, extends to the 2nd sidepiece 113 side.

With reference to Fig. 3.Then, stiffening plate 304 stretches toward the direction of arrow K (from the 1st sidepiece 112 towards the direction of the 2nd sidepiece 113) by operator together with cable body 303, make stiffening plate 304 sliding and by front peristome 122, stiffening plate 304 slided into the below that the 2nd prevents tear-away portion 104.Now, the bottom surface of stiffening plate 304 touches the foundation side part in the strain portion 105C of contact 105, the strain portion 105C that stiffening plate 304 is subject to contact 105 thereafter pushes away, is touched part 105 and the 2nd and prevents tear-away portion 104 from clamping.

Operator makes stiffening plate 304 move to the 2nd sidepiece 113 side, until the end face 304B of stiffening plate 304 props up the 1st prevent tear-away portion 103.Now, operator, with the position alignment leader label 126 of the end face 304D of visual the 1st sidepiece 112 side made in stiffening plate 304, can prevent FPC cable 301 from becoming incomplete insert state in advance.Thus, the strain portion 105C of contact 105 contacts the portion of terminal 302A of FPC cable 301, and stiffening plate 304 contacts the 1st and prevents tear-away portion 103, the 2nd from preventing tear-away portion 104 and contact 105 and stablizing.At this, because now stiffening plate 304 is subject to the support of reinforcing body support sector 127, even if so stiffening plate 304 is pressed into below by operator, stiffening plate 304 is still subject to the supporting of reinforcing body support sector 127, can prevent the power that contact 105 can be made to be out of shape from putting on contact 105.

So, on the flat cable connector 101 of present embodiment, easily and reliably FPC cable 301 can be installed.In addition, stiffening plate 304 is prevented tear-away portion 104 and contact 105 from clamping by the 2nd and stablizes, so also can realize slimming.

In addition, in the flat cable connector 101 of present embodiment, as shown in Figure 3, the printed wiring 202 on flexible printed 302 in FPC cable 301 and substrate 201 can not mutually faced by.Therefore, when the signal of telecommunication transmits and flows on flexible printed 302 with printed wiring 202, the impact in the magnetic field produced in its periphery does not involve the signal of telecommunication, especially when the signal of telecommunication of high frequency, not easily produces mistake.

Figure 12 represents the stereogram installed with the flat cable connector 101 of the appearance of the difform FPC cable 351 of Fig. 2.The flat cable connector 101 of present embodiment, following FPC cable 351 also can be installed: be not formed with wide width part 303A (with reference to Fig. 2) in end, but there is the end that the two corner portions that can see end when overlooking cut away the protrusion shape of rectangle, and on this kind of end, stiffening plate 352 is installed.In addition, now, the width dimensions of the cable body 353 of FPC cable 351, generally consistent with the width of front peristome 122 of the 1st sidepiece 112 side being located at shell 102.In addition, the width dimensions of the fore-end of stiffening plate 352, generally consistent with the width in extension side opening portion 123 of the 2nd sidepiece 113 side being located at shell 102.The stiffening plate 352 of FPC cable 351 is when end-side openings portion 122 slippage is inserted in the past, stiffening plate 352 enters the below that the 2nd prevents tear-away portion 104, the end face 352A in the cut region of stiffening plate 352 props up the 1st and prevents tear-away portion 103, and stiffening plate 352 contacts the 1st and prevents tear-away portion 103, the 2nd from preventing tear-away portion 104 and contact 105 also stable.

According to Figure 13, another execution mode is described.For convenience of description, present embodiment is called the second execution mode.Now, identical Reference numeral marked for the part identical with the first execution mode and omit the description.

Figure 13 is the vertical view of flat cable connector 101.In the present embodiment, contact 105 is installed into the direction contrary with the first execution mode.Namely, all the regions of the 2nd sidepiece 113 side part in the stage casing of this contact 105 being embedded in resin portion 102B, substrate connecting portion 105B more protrudes from the 2nd sidepiece 113 side than the bottom surface sections 114 formed by resin portion 102B and gives prominence to, and be connected to substrate 201, strain portion 105C is more positioned at top than bottom surface sections 114 and protrudes from the 1st sidepiece 112 side and be positioned at the top of central portion 124.

In present embodiment, when FPC cable 301 (with reference to Fig. 2 etc.) is mounted to flat cable connector 101, identical with the explanation done according to Figure 11, operator makes the stiffening plate 304 (with reference to Fig. 2 etc.) of FPC cable 301 be positioned at the 1st sidepiece 112 side of flat cable connector 101, make cable body 303 (with reference to Fig. 2 etc.) by the end face peristome 121 of flat cable connector 101, and along the bottom surface sections 114 removal cable body 303 of flat cable connector 101.Now, cable body 303 passes through to extend side opening portion 123 from the inside of shell 102, extends to the 2nd sidepiece 113 side.Then, stiffening plate 304 stretches from the 1st sidepiece 112 toward the direction towards the 2nd sidepiece 113 by operator together with cable body 303, makes stiffening plate 304 sliding and by front peristome 122, stiffening plate 304 is slided into below that the 2nd prevents tear-away portion 104.Now, contact 105, after the fore-end of strain portion 105C touching contact 105, is depressed by the bottom surface of stiffening plate 304.Operator makes the end face 304B of stiffening plate 304 (with reference to Fig. 2 etc.) move to the 2nd sidepiece 113 side, until prop up the 1st to prevent tear-away portion 103, make the strain portion 105C of contact 105 contact the portion of terminal 302A of FPC cable 301, and make stiffening plate 304 touch the 1st to prevent tear-away portion 103, the 2nd from preventing tear-away portion 104 and contact 105 and stablizing.

So, in the flat cable connector 101 of present embodiment, also FPC cable 301 can be installed simply.In addition, stiffening plate 304 is prevented tear-away portion 104 and contact 105 from clamping by the 2nd and stablizes, and also can realize slimming.

In addition, undoubtedly, the flat cable connector 101 of present embodiment also can install the FPC cable 351 shown in Figure 12.

Claims

1. a flat cable connector, is configured on substrate, and for installing flat cable, this flat cable possesses: the cable body of flat; Portion of terminal, is located at the plane domain of described cable body; And stiffening plate, be located at the end regions of described cable body, there is the alar part outstanding to Width both sides relative to this cable body; This flat cable connector comprises:

Shell, have substantially in parallel towards described substrate top part with the 1st sidepiece and the 2nd sidepiece and bottom surface sections that the direction that intersects with described substrate extends respectively from two the opposite edges described top part and form hollow, and be provided with: end face peristome, allows passing through of described flat cable at described top part opening; Front peristome, is connected to described end face peristome and in described 1st side mouth, allows the sliding of described stiffening plate; And extend side opening portion, be connected to described end face peristome and in the 2nd side mouth, allow the sliding of described cable body;

Contact, is configured at the interior bottom side of described shell, contacts described portion of terminal;

1st prevents tear-away portion, is located at described shell, and stop will to the end face of the alar part of the described stiffening plate of described 2nd lateral side movement; And

2nd prevents tear-away portion, prevents tear-away portion to be more positioned at described 1st lateral side in the housing than the described 1st, and stop is positioned at described shell and will to the described stiffening plate of described top part side movement;

Wherein, described 1st prevents tear-away portion and the described 2nd from preventing tear-away portion from passing through metal punching to process and make sheet metal with the straight line being parallel to the bearing of trend of described flat cable for sweep bends, thus forms as one with the press section in region at least partially of the bottom surface side forming described bottom surface sections;

Described 1st prevents tear-away portion from stopping the end face of the alar part of described stiffening plate with the section of described sheet metal in the both sides in described extension side opening portion;

This flat cable connector is by being coated on the solder in the bottom surface side region of the described bottom surface sections formed by described press section or bonding agent and being fixed on substrate.

2. flat cable connector as claimed in claim 1, wherein,

Described contact is connected to this substrate in described 1st lateral side.

3. flat cable connector as claimed in claim 1 or 2, wherein,

In the housing, preventing tear-away portion closer to the side of the 1st sidepiece than the described 2nd, the leader label for the location by visual this stiffening plate of confirmation is provided with.