JP2022097100A - Electric connector - Google Patents

Abstract

To inhibit increase of an insertion force generated when a plug is inserted and fitted in a socket even if warpage occurs in a flexible substrate.SOLUTION: An electric connector 1 has: a plug 6 which holds a flexible flat cable (FFC) 100; and a socket 2 which is fitted in the plug 6. The socket 2 has: an insulation housing 3 including a fitting recessed part 31 which is fitted in the plug 6, and protruding parts 32 each of which protrudes to the fitting recessed part 31 and has a facing surface 321 facing the FFC 100; and conductive contacts 4 each including connection parts 41 which protrude from the facing surface 321 in a direction in which the connection parts 41 face the FFC 100 (a facing direction) and are connected to a conductive part 102 of the FFC 100, and terminal parts 42 protruding to the outside from the insulation housing 3, the conductive contacts 4 held by the insulation housing 3. Each protruding part 32 includes ribs 323 protruding from the facing surface 321 in the facing direction at the open end part 31a side of the fitting recessed part 31 of the facing surface 321.SELECTED DRAWING: Figure 3

Description

The present invention relates to an electrical connector having a plug for holding a plate-shaped flexible substrate and a socket for fitting the plug.

Conventionally, an electric connector for connecting a plate-shaped flexible board such as FPC (Flexible printed circuits) or FFC (Flexible Flat Cable) to a circuit board is known. As such an electric connector, a plug holding the flexible board is fitted into a socket having a conductive contact so that foreign matter or the like does not enter the connection portion between the flexible board and the conductive contact and cause a connection failure. As a result, some have a configuration for connecting the conductive portion of the flexible substrate and the conductive contact. In particular, the electric connector mounted on the vehicle often has such a configuration.

Under such circumstances, Patent Document 1 discloses an electric connector in which an FFC insertion guide into which an FFC is inserted and fixed is inserted into an FFC connector to electrically connect the FFC and the FFC connector.

Japanese Unexamined Patent Publication No. 2006-85989

However, in Patent Document 1, when the FFC is warped due to various factors, the warped FFC is used for the FFC when the FFC insertion guide to which the FFC is inserted and fixed is inserted into the FFC connector and fitted. There is a problem that the insertion force increases due to sliding contact with the fitting surface of the connector, and the wear of the FFC is promoted.

An object of the present invention is to provide an electric connector capable of suppressing an increase in an insertion force when a plug is inserted into a socket and fitted even when the flexible substrate is warped.

The electric connector according to the present invention is an electric connector having a plug for holding a plate-shaped flexible substrate and a socket for fitting with the plug, and the socket is a first fitting for fitting with the plug. An insulating first housing having a joint recess and a protrusion having a facing surface facing the flexible substrate as well as projecting to the first fitting recess, and facing the flexible substrate from the facing surface. A connecting portion that protrudes in a direction and connects to a conductive portion of the flexible substrate, a terminal portion that protrudes outward from the first housing, and a conductive contact that is held in the first housing. The protruding portion has a rib that protrudes from the facing surface in the facing direction on the first open end side of the first fitting recess on the facing surface.

By pressing the flexible board in the facing direction with the ribs when fitting the plug and the socket, even if the flexible board is warped, the flexible board and the facing surface of the protruding portion are in sliding contact with each other. Reduces the insertion pressure when the accompanying plug is inserted into the socket and fitted.

According to the present invention, even when the flexible substrate is warped, it is possible to suppress an increase in the insertion force when the plug is inserted into the socket and fitted.

It is a perspective view of the electric connector which concerns on embodiment of this invention. FIG. 1 is a cross-sectional view taken along the line AA of FIG. It is a perspective view of the socket of the electric connector which concerns on embodiment of this invention. It is a front view of the socket of the electric connector which concerns on embodiment of this invention. FIG. 4 is a cross-sectional view taken along the line BB of FIG. FIG. 4 is a sectional view taken along the line CC of FIG. It is a perspective view of the plug of the electric connector which concerns on embodiment of this invention. It is a top view of the plug of the electric connector which concerns on embodiment of this invention. It is a rear view of the plug of the electric connector which concerns on embodiment of this invention. It is a front view of the plug of the electric connector which concerns on embodiment of this invention. FIG. 8 is a sectional view taken along the line DD of FIG. FIG. 10 is a cross-sectional view taken along the line EE of FIG. It is an enlarged sectional view of a part of the plug of the electric connector which concerns on embodiment of this invention. It is a perspective view of the flexible substrate connected to the electric connector which concerns on embodiment of this invention. It is a figure which shows the state at the time of the start of fitting, and the state during fitting of the socket and the plug of the electric connector which concerns on embodiment of this invention.

Hereinafter, the electric connector according to the embodiment of the present invention will be described in detail with reference to the drawings as appropriate. In the figure, the x-axis, y-axis and z-axis form a three-axis Cartesian coordinate system, with the positive direction of the y-axis being the forward direction, the negative direction of the y-axis being the backward direction, the positive direction of the x-axis being the left direction, and x. The negative direction of the axis will be described as the right direction, the positive direction of the z-axis will be described as the upward direction, and the negative direction of the z-axis will be described as the downward direction.

<Structure of electrical connector>
The configuration of the electric connector 1 according to the embodiment of the present invention will be described in detail below with reference to FIGS. 1 to 14.

The electric connector 1 has a plug 6 for holding the FFC 100 as a plate-shaped flexible substrate, and a socket 2 for fitting the plug 6. The plug 6 is not limited to holding the FFC 100, and may hold a plate-shaped flexible substrate such as an FPC other than the FFC 100.

The socket 2 has an insulating housing 3, a conductive contact 4, and a conductive contact 5.

The insulating housing 3 includes a fitting recess 31, a protruding portion 32, a back wall portion 33, a bottom wall portion 34, a top wall portion 35, a lock portion 36, and a guide portion 38 to provide insulation. It is formed by the material it has.

The front of the fitting recess 31 is open to the outside, and the fitting recess 31 is recessed to a size that allows it to be fitted with the plug 6 described later.

A pair of projecting portions 32 are provided at intervals in the left-right direction, which is the width direction, and project to the fitting recess 31 by projecting forward from the back wall portion 33 constituting the fitting recess 31. .. The protrusion 32 has a facing surface 321 and a facing surface 322 facing the FFC 100 held by the plug 6 when the socket 2 and the plug 6 are fitted.

The protruding portion 32 is provided with a rib 323 that protrudes from the facing surface 321 in the direction facing the FFC 100 (upward) on the open end portion 31a side of the fitting recess 31 of the facing surface 321. The protruding portion 32 is provided with a rib 324 protruding from the facing surface 322 in the direction facing the FFC 100 (downward) on the open end portion 31a side of the facing surface 322.

The facing surface 321 is the upper surface of the protruding portion 32, and is an inclined surface 325 that is inclined so that the width in the vertical direction of the protruding portion 32 gradually decreases toward the front at the front end portion in the front that is the protruding direction of the protruding portion 32. It is equipped with.

The facing surface 322 is the lower surface of the protruding portion 32, and includes an inclined surface 326 that is inclined so that the width of the protruding portion 32 in the vertical direction gradually decreases toward the front at the front end portion of the protruding portion 32.

The rib 323 is provided at the center of the protrusion 32 in the left-right direction. The rib 323 is also provided on the inclined surface 325 by extending rearward from the front end of the facing surface 321. The rib 323 is provided on the open end 31a side of the connecting portion 41 of the conductive contact 4. The rib 323 is provided between the connecting portions 41 of the conductive contact 4. Here, three ribs 323 are provided for each of the pair of protrusions 32.

The rib 324 is provided at the center of the protrusion 32 in the left-right direction. The rib 324 is also provided on the inclined surface 326 by extending rearward from the front end of the facing surface 322. The rib 324 is provided on the open end 31a side of the connecting portion 51 of the conductive contact 5. The rib 324 is provided between the connecting portions 51 of the conductive contact 5. Here, three ribs 324 are provided for each of the pair of protrusions 32.

The lock portion 36 is detachably engaged with the lock piece portion 77 of the plug 6 described later.

A pair of guide portions 38 are provided with the lock portions 36 interposed therebetween in the front view of the fitting recesses 31, and are formed in the top wall portion 35 constituting the fitting recesses 31.

The conductive contact 4 is made of a conductive material. The conductive contact 4 is held and fixed to the insulating housing 3, and includes a connection portion 41 and a terminal portion 42.

The connecting portion 41 projects movably upward from the facing surface 321 in the upward direction facing the FFC 100, and connects to the conductive portion 102 of the FFC 100. The connecting portion 41 projects upward from the rib 323 in a state where it is not connected to the FFC 100.

The terminal portions 42 project outward from the insulating howing 3 and are arranged at intervals along the left-right direction, and are connected to a conductive portion of a circuit board (not shown) by soldering or the like.

The conductive contact 5 is made of a conductive material. The conductive contact 5 is held and fixed to the insulating housing 3, and includes a connection portion 51 and a terminal portion 52.

The connecting portion 51 projects movably downward from the facing surface 322 in the direction facing the FFC 100, and connects to the conductive portion 102 of the FFC 100. The connecting portion 51 is arranged between the connecting portions 41 in the front view shown in FIG. The connecting portion 51 protrudes below the rib 324 in a state where it is not connected to the FFC 100.

The terminal portions 52 project outward from the insulating howing 3 and are arranged at intervals along the left-right direction, and are connected to a conductive portion of a circuit board (not shown) by soldering or the like. The terminal portions 52 are arranged in front of the terminal portions 42 as shown in FIG. 5, and are arranged between the terminal portions 42 as shown in FIG.

The plug 6 has an insulating housing 7.

The insulating housing 7 includes a fitting recess 71, a support portion 72a, a support portion 72b, a support portion 72c, a support portion 72d, a support portion 72e, a support portion 72f, a support portion 72g, and a support portion 72h. The regulation portion 73, the regulation portion 74, the partition portion 75, the insertion hole 76u, the insertion hole 76d, and the lock piece portion 77 are provided, and are formed of an insulating material.

The fitting recess 71 fits with the protrusion 32. The fitting recess 71 exposes the facing portion 103 and the facing portion 104 (see FIG. 14) of the FFC 100 inserted in the insertion hole 76u below the top wall portion 78, and is inserted into the insertion hole 76d. The facing portion 103 and the facing portion 104 of the FFC 100 are exposed above the bottom wall portion 79.

The fitting recess 71 has the facing portion 103 of the FFC 100 exposed below the top wall portion 78 when the socket 2 and the plug 6 are fitted to the facing surface 321 of the protruding portion 32 on the right side in FIG. In addition to facing each other, the facing portion 104 of the FFC 100 exposed below the top wall portion 78 is made to face the facing surface 321 of the protruding portion 32 on the left side in FIG. Further, in the fitting recess 71, when the socket 2 and the plug 6 are fitted, the facing portion 103 of the FFC 100 exposed above the bottom wall portion 79 is exposed to the facing surface of the protruding portion 32 on the right side in FIG. The facing portion 104 of the FFC 100, which faces the 322 and is exposed above the bottom wall portion 79, faces the facing surface 321 of the left protruding portion 32 in FIG.

As shown in FIG. 11, the support portion 72a is provided in the side wall portion 80, and communicates with the upper insertion hole 76u and the fitting recess 71, and the facing portion 103 of the FFC 100 inserted into the insertion hole 76u. It supports one end 100a (see FIG. 14) in the left-right direction.

The support portion 72b is provided in the partition portion 75, communicates with the upper insertion hole 76u and the fitting recess 71, and is the other end portion in the left-right direction of the facing portion 103 of the FFC 100 inserted into the insertion hole 76u. Supports 100c.

The support portion 72c is provided in the partition portion 75, communicates with the upper insertion hole 76u and the fitting recess 71, and is inserted into the insertion hole 76u at one end of the facing portion 104 of the FFC 100 in the left-right direction. It supports 100d.

The support portion 72d is provided on the side wall portion 81, communicates with the upper insertion hole 76u and the fitting recess 71, and is the other end portion in the left-right direction of the facing portion 104 of the FFC 100 inserted into the insertion hole 76u. Supports 100b.

The support portion 72e is provided in the side wall portion 81, communicates with the lower insertion hole 76d and the fitting recess 71, and is inserted into the insertion hole 76d at one end of the facing portion 104 of the FFC 100 in the left-right direction. Supports 100b.

The support portion 72f is provided in the partition portion 75, communicates with the lower insertion hole 76d and the fitting recess 71, and is the other end portion in the left-right direction of the facing portion 104 of the FFC 100 inserted into the insertion hole 76d. It supports 100d.

The support portion 72g is provided in the partition portion 75, and communicates with the lower insertion hole 76d and the fitting recess 71, and is inserted into the insertion hole 76d at one end of the facing portion 103 of the FFC 100 in the left-right direction. Supports 100c.

The support portion 72h is provided in the side wall portion 80, communicates with the lower insertion hole 76d and the fitting recess 71, and is the other end portion in the left-right direction of the facing portion 103 of the FFC 100 inserted into the insertion hole 76d. It supports 100a.

The restricting portion 73 extends in the left-right direction between the side wall portion 80 and the partition portion 75 of the fitting recess 71 and between the side wall portion 81 and the partition portion 75, and is an open end of the fitting recess 71. It is provided on the side of the portion 71a (see FIG. 12) to regulate the movement of the FFC 100 to the open end portion 71a (movement to the rear). The regulating portion 73 is provided with an engaging groove 731 formed by cutting out the regulating portion 73. The rib 323 engages with the engagement groove 731 when the socket 2 and the plug 6 are fitted.

The restricting portion 74 extends in the left-right direction between the side wall portion 80 and the partition portion 75 of the fitting recess 71 and between the side wall portion 81 and the partition portion 75, and extends to the open end portion 71a of the FFC 100. It regulates the movement of. The regulating portion 74 is provided with an engaging groove 741 formed by cutting out the regulating portion 74. The rib 324 engages with the engaging groove 741 when the socket 2 and the plug 6 are fitted.

As shown in FIG. 13, the engaging groove 731 exposes the tip end portion of the FFC 100 with respect to the insertion hole 76u in the insertion direction in the front view. The engaging groove 741 exposes the tip portion of the FFC 100 in the insertion direction with respect to the insertion hole 76d in the front view.

The partition portion 75 is provided in the center of the fitting recess 71 in the left-right direction, and divides the fitting recess 71 into left and right. The partition portion 75 is arranged between the pair of protrusions 32 when the socket 2 and the plug 6 are fitted.

The insertion hole 76u is a through hole that penetrates the back wall portion 82 in the plate thickness direction, and communicates with the fitting recess 71, the support portion 72a, the support portion 72b, the support portion 72c, and the support portion 72d. The FFC 100 is inserted through the insertion hole 76u.

The insertion hole 76d is a through hole that penetrates the back wall portion 82 in the plate thickness direction, and communicates with the fitting recess 71, the support portion 72e, the support portion 72f, the support portion 72g, and the support portion 72h. The FFC 100 is inserted through the insertion hole 76d.

The lock piece portion 77 is provided with a pair of engaging holes 771 which are through holes penetrating in the plate thickness direction at intervals on the left and right. The lock portion 36 engages with the engagement hole 771.

<Manufacturing method of electrical connector>
The manufacturing method of the electric connector 1 according to the embodiment of the present invention will be described in detail below with reference to FIG.

A socket 2 in which a conductive contact 4 and a conductive contact 5 are integrally molded in an insulating housing 3 is generated in advance, and a plug 6 is generated in advance by molding.

First, the FFC 100 is inserted into the insertion hole 76u of the plug 6 from the front, and the FFC 100 is inserted backward until the tip of the FFC 100 in the insertion direction with respect to the insertion hole 76u abuts on the regulating portion 73. Along with this, the end 100a of the FFC 100 is supported by the support 72a, the end 100b of the FFC 100 is supported by the support 72d, the end 100c of the FFC 100 is supported by the support 72b, and the end of the FFC 100 is supported. 100d is supported by the support portion 72c. Further, the partition portion 75 is inserted into the slit portion 101 of the FFC 100.

Further, the FFC 100 is inserted into the insertion hole 76d of the plug 6 from the front, and the FFC 100 is inserted until the tip of the FFC 100 in the insertion direction with respect to the insertion hole 76d abuts on the regulating portion 74. Along with this, the end 100a of the FFC 100 is supported by the support 72h, the end 100b of the FFC 100 is supported by the support 72e, the end 100c of the FFC 100 is supported by the support 72g, and the end of the FFC 100 is supported. 100d is supported by the support portion 72f. Further, the partition portion 75 is inserted into the slit portion 101 of the FFC 100.

Next, the protruding portion 32 of the socket 2 is fitted into the fitting recess 71 of the plug 6. At this time, by inserting the partition portion 75 between the pair of protruding portions 32, the fitting of the protruding portion 32 with respect to the fitting recess 71 can be guided by the partition portion 75.

Here, in the FFC 100 held by the plug 6, although the end portion 100a, the end portion 100b, the end portion 100c and the end portion 100d are supported by the support portion 72h from the support portion 72a, the end portion 100a and the end portion 100c are supported. And between the end 100b and the end 100d are not supported. As a result, between the end 100a and the end 100c of the FFC 100 inserted in the insertion hole 76u and between the end 100b and the end 100d, the FFC 100 is easily warped downward and is inserted into the insertion hole 76d. The space between the end 100a and the end 100c of the FFC 100 and the space between the end 100b and the end 100d tend to warp upward.

When the FFC100 is warped, as shown in FIG. 15A, the FFC100 inserted into the insertion hole 76u is in a state of rising downward from the top wall portion 78 and inserted into the insertion hole 76d. The FFC 100 is in a state of rising upward from the bottom wall portion 79.

In the state shown in FIG. 15 (a), when the socket 2 and the plug 6 are fitted, the rib 323 is inserted into the insertion hole 76u as shown in FIG. 15 (b). Is pressed upward to bring it into contact with the top wall portion 78, and FFC 100 having the rib 324 inserted through the insertion hole 76d is pressed downward to bring it into contact with the bottom wall portion 79.

As a result, even if the FFC 100 is warped, the warp of the FFC 100 can be corrected, so that the warped portion of the FFC 100 does not slide into the facing surface 321 and the facing surface 322 of the protrusion 32. be able to. Further, by fitting the socket 2 and the plug 6 while sliding the warped portion of the FFC 100 with the rib 323 and the rib 324, the warped portion of the FFC 100 and the facing surface 321 and the facing surface 322 are in sliding contact with each other. Since the area of sliding contact can be reduced as compared with the case, it is possible to suppress an increase in the insertion force when the plug 6 is inserted into the socket 2 and fitted.

At this time, by providing each of the rib 323 and the rib 324 in the center of the protruding portion 32 in the left-right direction, the rib 323 and the rib 324 are in sliding contact with the insulating housing 7 as compared with the case where the rib 323 and the rib 324 are provided in the entire left-right direction. It is possible to suppress an increase in the insertion force when the plug 6 is inserted into the socket 2 and fitted into the socket 2.

Further, when the fitting of the plug 6 and the socket 2 is started, the rib 323 engages with the engaging groove 731, and the rib 324 engages with the engaging groove 741 to connect the plug 6 to the socket 2. It is possible to further suppress an increase in the insertion force when inserting and fitting.

Further, by engaging the rib 323 with the engaging groove 731, it is possible to suppress an increase in the insertion force when the plug 6 is inserted into the socket 2 and fitted, so that the amount of protrusion of the rib 323 upward is increased. By increasing the size, the warped FFC 100 can be pressed further upward, and an increase in the insertion force when the plug 6 is inserted into the socket 2 and fitted can be reliably suppressed. Similarly, by engaging the rib 324 with the engaging groove 741, it is possible to suppress an increase in the insertion force when the plug 6 is inserted into the socket 2 and fitted, so that the rib 324 protrudes downward. Since the amount can be increased, the warped FFC 100 can be pressed further downward, and an increase in the insertion force when the plug 6 is inserted into the socket 2 and fitted can be reliably suppressed. ..

Further, by providing the inclined surface 325 and the inclined surface 326 on the protruding portion 32, providing the rib 323 on the inclined surface 325, and providing the rib 324 on the inclined surface 326, the fitting of the plug 6 and the socket 2 is started. It is possible to suppress an increase in the insertion force.

Further, by providing the rib 323 on the open end 31a side of the connection portion 41 and providing the rib 324 on the open end 31a side of the connection portion 51, the conductive portion 102 of the FFC 100 that has been warped becomes the connection portion 41. And since the warp of the FFC 100 can be corrected before connecting to the connection portion 51, a large load is applied to the connection portion 41 and the connection portion 51 when the conductive portion 102 of the FFC 100 is connected to the connection portion 41 and the connection portion 51. Can be prevented from being added.

Further, the restricting portion 73 is cut out to provide the engaging groove 731, and the regulating portion 74 is cut out to provide the engaging groove 741 to form a portion only for forming the engaging groove 731 and the engaging groove 741. It is possible to eliminate the need to provide the insulating housing 7, and the plug 6 can be miniaturized.

Then, when the lock portion 36 of the socket 2 engages with the lock piece portion 77 of the plug 6, the electric connector 1 is in the completed state shown in FIGS. 1 and 2.

Incidentally, when the plug 6 is provided with a configuration for correcting the warp of the FFC 100, the configuration for correcting the warp of the FFC 100 is provided for the conductive contact 4 and the conductive of the socket 2 when the socket 2 and the plug 6 are fitted. It is difficult because it is necessary to provide the fitting recess 71 of the plug 6 on which the sex contact 5 slides.

As described above, according to the present embodiment, the rib 323 protruding upward from the facing surface 321 is provided on the open end portion 31a side of the facing surface 321 facing the FFC 100, and the open end portion of the facing surface 322 facing the FFC 100 is provided. By providing the protruding portion 32 having a rib 324 protruding below the facing surface 322 on the 31a side, even if the FFC 100 is warped, the plug 6 is inserted into the socket 2 for fitting. The increase in force can be suppressed.

The present invention is not limited to the above-described embodiment in terms of the type, arrangement, number, etc. of the members, and the constituent elements thereof are appropriately replaced with those having the same effect and effect, as long as the gist of the invention is not deviated. Of course, it can be changed as appropriate.

Specifically, in the above embodiment, each of the rib 323 and the rib 324 is provided in the center of the protruding portion 32 in the left-right direction, but the present invention is not limited to this, and the ribs may be provided in the entire left-right direction of the protruding portion 32. Alternatively, the ribs may be provided at both ends or one end of the protruding portion in the left-right direction.

Further, in the above embodiment, the socket 2 is provided with a pair of protrusions 32, but the present invention is not limited to this, and one or more protrusions 32 can be provided.

Further, in the above embodiment, the plug 6 holds two FFC 100s at the top and bottom, but the present invention is not limited to this, and one FFC 100 may be held.

Further, in the above embodiment, the rib 323 and the rib 324 are extended rearward from the front end of the protruding portion 32, but the present invention is not limited to this, and the rib may be provided only on the open end portion 31a side of the protruding portion.

The electric connector according to the present invention is suitable for suppressing an increase in the insertion force when the plug is inserted into the socket and fitted even when the flexible substrate is warped.

1 Electrical connector 2 Socket 3 Insulated housing 4 Conductive contact 5 Conductive contact 6 Plug 7 Insulated housing 31 Fitting recess 31a Open end 32 Protruding part 33 Back wall part 34 Bottom wall part 35 Top wall part 36 Lock part 38 Guide part 41 Connection part 42 Terminal part 51 Connection part 52 Terminal part 71 Fitting recess 72a Support part 72b Support part 72c Support part 72d Support part 72e Support part 72f Support part 72g Support part 72h Support part 73 Restriction part 74 Regulation part 75 Partition part 76d Insertion hole 76u Insertion hole 77 Lock piece 78 Top wall 79 Bottom wall 80 Side wall 81 Side wall 82 Back wall 100 FFC
100a end 100b end 100c end 100d end 101 slit 102 conductive part 103 facing part 104 facing part 321 facing surface 322 facing surface 323 rib 324 rib 325 inclined surface 326 inclined surface 731 engaging groove 741 engaging groove 771 Slit hole

Claims (6)

An electrical connector having a plug for holding a plate-shaped flexible substrate and a socket for fitting the plug.
The socket is
An insulating first housing comprising a first fitting recess that fits the plug and a protrusion that projects into the first fitting recess and has a facing surface facing the flexible substrate.
The first housing is provided with a connection portion that protrudes from the facing surface in a direction facing the flexible substrate and connects to a conductive portion of the flexible substrate, and a terminal portion that projects outward from the first howing. With conductive contacts that are retained,
Have,
The protrusion is
A rib that protrudes from the facing surface in the facing direction is provided on the first open end side of the first fitting recess on the facing surface.
An electrical connector that features that. The plug is
Supports a second fitting recess that fits the protruding portion and exposes the flexible substrate at a position facing the facing surface, and both ends in the width direction of the facing portion facing the facing surface of the flexible substrate. Has an insulating second housing with a support for
The rib is
Provided at the center of the protrusion in the width direction,
The electric connector according to claim 1. The facing surface is
The tip of the protruding portion in the protruding direction is provided with an inclined surface that is inclined so that the width of the protruding portion in the vertical direction gradually decreases toward the protruding direction.
The rib is
Provided on the inclined surface
The electric connector according to claim 1 or 2, characterized in that. The rib is
Provided on the side of the first open end portion with respect to the connection portion.
The electric connector according to any one of claims 1 to 3. The plug is
A second fitting recess that fits with the protrusion and exposes the flexible substrate at a position facing the facing surface, and a second open end side of the second fitting recess are provided. It has an insulating second housing with an engaging groove that engages with the ribs.
The electric connector according to claim 1. The second housing is
A regulating portion provided in the second fitting recess and restricting the movement of the flexible substrate to the second open end portion is provided.
The engaging groove is
It is provided by cutting out the regulation part.
The electric connector according to claim 5.

Images