JP2009301916A - Fpc (flexible printed circuit)/ffc (flexible flat cable) connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an FPC/FFC connector in which downsizing, cost reduction, and reduction of the number of components are attained, and the terminal portion of the FPC or the FFC can be held in a normal state and furthermore, unlocking can be carried out easily. <P>SOLUTION: An operating part 13 is pressed to make a fulcrum portion 14 contact the outer surface of an upper wall 7 and function it as a fulcrum, and furthermore, by continuing pressing, when a lock arm 8 is elastically deformed, a retention lock part 10 moves upward by this. When the retention lock part 10 moves upward, the position of the retention lock part 10 becomes a non-engaging position to the position of a retention hole at the terminal portion of the FPC. Thereby, the terminal portion of the FPC can be pulled out from the housing inner space 11. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a connector for a flexible printed circuit board (FPC) or a flexible flat cable (FFC).

  The FPC / FFC connector disclosed in the following Patent Document 1 includes a slider provided at an FPC or FFC terminal, a housing with which the slider is engaged, and a plurality of terminals accommodated in the housing. . In the FPC / FFC connector, when the slider is engaged with the housing, the FPC or FFC circuit comes into contact with the corresponding terminal, thereby making electrical connection. The FPC / FFC connector has a pair of lock arms formed on both sides of the slider so that it can be inserted into a pair of arm engaging portions formed on the outside of both side walls of the housing. It is formed so that a match occurs.

  By the way, in the above FPC / FFC connector, it is necessary to use a slider having a lock arm at both side positions, and this slider needs to be provided at the terminal of the FPC or FFC. Have a problem that the terminal size of the device becomes large. In addition, if the terminal size of FPC or FFC becomes large, it will have an influence in terms of cost.

  In addition, the FPC / FFC connector requires positioning know-how for providing a slider at the terminal of the FPC or FFC. Further, in the FPC / FFC connector, since the shapes of the lock arm and the arm engaging portion are complicated, unlocking becomes relatively difficult.

  On the other hand, the FPC / FFC connector disclosed in Patent Document 2 below has a structure that solves the problems of the FPC / FFC connector. Specifically, the FPC / FFC connector of Patent Document 2 below has a pair of engagement holes in the terminal of the FPC or FFC itself. In addition, a pair of locking members having protrusions that engage with the engaging holes are rotatably provided on both side walls of the housing. The lock member is a separate component with respect to the housing and has a rotation shaft, and the convex portion engages with the engagement hole on the outside of the housing.

Since the FPC / FFC connector of Patent Document 2 has a structure having a pair of engagement holes in the FPC or FFC terminal itself, there is no member that requires positioning know-how. Moreover, since there is no said member, the terminal size of FPC or FFC does not become large.
JP 2002-231346 A JP 2001-291979 A

  The FPC / FFC connector disclosed in Patent Document 2 has a structure in which a lock member, which is a separate member, is rotated with respect to the housing to hold the terminal of the FPC or FFC, so that the lock member is rotated. This requires a lot of space, which is a problem. That is, in the FPC / FFC connector, the terminal size of the FPC or FFC can be made smaller than that of Patent Document 1, but on the housing side, the size of the housing is increased by the rotation of the lock member. Even if a low-profile housing is formed in the same state, the low-profile effect is diminished. Therefore, it is difficult to reduce the size and it is also difficult to reduce the cost due to this.

  Further, in the FPC / FFC connector, since the lock member is a separate component with respect to the housing, the number of components constituting the housing is increased, which is a problem.

  Furthermore, in the above FPC / FFC connector, when excessive deformation occurs in the FPC or FFC, there is a risk that the convex portion of the lock member may come off from the engagement hole formed in the FPC or FFC. This is a problem.

  Furthermore, in the FPC / FFC connector, since the flexible FPC or FFC is used, when the FPC or FFC is deformed, the convex portion of the lock member is not engaged with the engagement hole. Even so, there is a fear that it looks as if it is engaged, which is a problem.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an FPC / FFC connector that can be reduced in size, cost, number of parts, and the like. It is another object of the present invention to provide an FPC / FFC connector that can normally hold an FPC or FFC terminal portion. It is another object of the present invention to provide an FPC / FFC connector that can be easily unlocked.

  The FPC / FFC connector of the present invention according to claim 1, which has been made to solve the above-mentioned problems, comprises a housing made of synthetic resin having insulation properties and a plurality of terminals accommodated in the housing. Has a holding lock portion that engages with a holding hole provided in the terminal portion of the FPC or FFC, and an arm portion that continues to the holding lock portion, and can be interlocked with the holding lock portion. In the FPC / FFC connector formed with an elastically deformable lock arm, the lock arm is formed integrally with the housing, and receives an external force in addition to the holding lock portion and the arm portion. An operating portion as a portion to be hung, and a fulcrum portion located between the operating portion and the holding lock portion, and the lock arm of the holding lock portion If the external force is applied to the operation portion from the state where the mounting is in the engagement position with respect to the position of the holding hole, the holding lock portion is elastically deformed with the fulcrum portion as a base point. Is moved to a non-engagement position with respect to the position of the holding hole.

  The FPC / FFC connector of the present invention according to claim 2 is the FPC / FFC connector according to claim 1, wherein a part of the terminal is exposed inside the housing, and the terminal portion of the FPC or FFC. And a housing internal space in which the holding lock portion moves in a direction perpendicular to the advancing / retreating direction of the terminal portion.

  The FPC / FFC connector according to a third aspect of the present invention is the FPC / FFC connector according to the first or second aspect, wherein the arm portion includes a lock side continuous portion that is continuous with the holding lock portion, and the operation. And a plate-like arm body extending substantially parallel to the outer surface of the housing.

  The FPC / FFC connector of the present invention according to claim 4 is the FPC / FFC connector according to claim 2 or 3, wherein the housing is an elastically deformable housing side arm portion continuous with the holding lock portion. On the other hand, the fulcrum portion of the lock arm moves away from the outer surface of the housing when the holding lock portion is in the engagement position, and approaches and comes into contact with the outer surface when the elastic deformation occurs. It is characterized by being formed.

  The FPC / FFC connector of the present invention according to claim 5 is the FPC / FFC connector according to any one of claims 1 to 4, wherein the terminal portion of the FPC or FFC is a plate member having the holding hole. The holding hole is formed only in the plate member.

  According to the first aspect of the present invention, since the lock arm for holding the terminal portion of the FPC or FFC is integrated with the housing, the number of separate parts is reduced, which is lower than the conventional one. The number of parts can be reduced. In addition, according to the present invention, since the terminal portion of the FPC or FFC is held and released by the elastically deformable lock arm, the conventional one, that is, a lock member that rotates with respect to the housing is provided. In comparison, the size can be reduced. In addition, according to the present invention, it is possible to make it more advantageous in terms of cost by reducing the size.

  Further, according to the present invention, the FPC or FFC terminal portion is held by the engagement between the holding lock portion and the holding hole, so that it is advantageous in terms of work. Will be able to. Further, according to the present invention, the engagement state between the holding lock portion and the holding hole can be easily released only by applying an external force to the operation portion.

  In addition, by forming the lock arm in consideration of the length and the position of the fulcrum portion, it becomes possible to adjust the force when releasing the lock.

  In the case of a connector having a length in the width direction such as a multipolar connector, the present invention can increase variations related to the adjustment of the length of the lock arm and the position of the fulcrum portion.

  According to the second aspect of the present invention, since the holding lock portion and the holding hole are engaged with each other in the housing, the FPC or the FFC is excessively deformed outside the housing. Even so, the engaged state can be maintained. That is, it can be avoided that the holding hole is detached from the holding lock portion due to the excessive deformation. According to the present invention, the terminal portion of the FPC or FFC can be normally held.

  Further, according to the present invention, since the holding lock portion and the holding hole are engaged with each other in the housing, there is no portion that goes out of the housing, or the number of portions is significantly reduced. Miniaturization can be achieved.

  According to the third aspect of the present invention, since the arm body of the arm portion of the lock arm extends in a state substantially parallel to the outer surface of the housing, the lock arm is relatively high even if the lock arm is integrated with the housing. Thus, the housing can be made shorter than before.

  According to the fourth aspect of the present invention, the amount of displacement of the holding lock portion can be increased by forming the housing-side arm portion that can be elastically deformed in the housing and continuing to the holding lock portion. It becomes like this. In addition, it can be reliably returned to the original position. If the elastically deformed lock arm can be reliably returned to the original position, the position of the holding lock portion will be stabilized, and as a result, the terminal portion of the FPC or FFC can be normally held. .

  Furthermore, it can be effective as one of variations relating to the adjustment of the length of the lock arm and the position of the fulcrum portion.

  According to the fifth aspect of the present invention, the presence of the plate member makes it difficult for excessive deformation to occur in the terminal portion of the FPC or FFC, and normal holding can be performed more reliably.

  Further, since it is not necessary to form a holding hole in the FPC or FFC, the circuit arrangement of the FPC or FFC need not be changed for the holding hole. Further, according to the present invention, the width dimension of the FPC or FFC can be shortened by the holding hole. It can be made suitable for downsizing.

  Hereinafter, description will be given with reference to the drawings. FIG. 1 is a perspective view showing an embodiment of the FPC / FFC connector of the present invention. 2 is a diagram showing a process when the terminal portion of the FPC or FFC is inserted into the housing. FIG. 2A is a cross-sectional view showing a state immediately before the insertion, and FIG. 2B is a state during the insertion. FIG. 2C is a cross-sectional view showing a state after insertion. 3 is a diagram showing a process when the terminal portion of the FPC or FFC is detached from the housing. FIG. 3A is a front view of the housing showing a state before elastic deformation of the lock arm, and FIG. FIG. 6 is a housing front view showing a state after elastic deformation of the lock arm at the time of detachment.

  In FIG. 1, an FPC / FFC connector 1 (in this embodiment, an FPC connector) of the present invention is mounted on the surface of a substrate 2, and includes an insulating synthetic resin housing 3 and the housing 3. A plurality of conductive terminals 4 accommodated in the housing 3 and conductive fixing brackets 5 respectively provided on both side walls of the housing 3. The FPC / FFC connector 1 is a multipolar connector. The FPC / FFC connector 1 can electrically connect the FPC 6 (or FFC. In the case of FFC, the connector becomes an FFC connector). Further, the FPC / FFC connector 1 can hold the terminal portion 9 of the FPC 6 by a lock arm 8 integrated with the upper wall 7 of the housing 3. Hereafter, each said structure is demonstrated.

  1 to 3, the housing 3 is formed in a wide shape so that a plurality of terminals 4 can be accommodated in a horizontal row. The housing 3 is a housing in which a part of the terminal 4 is exposed, the terminal portion 9 of the FPC 6 advances and retreats, and a holding lock portion 10 to be described later moves in a direction orthogonal to the advancing and retreating direction of the terminal portion 9. An internal space 11 is provided.

  The lock arm 8 integrated with the upper wall 7 of the housing 3 is a part for holding the terminal portion 9 of the FPC 6 and is made of resin since it is integrated with the upper wall 7, so that it can be elastically deformed. Is formed. The lock arm 8 includes a part of the upper wall 7. The lock arm 8 will be described in more detail. The lock arm 8 includes a holding lock portion 10, an arm portion 12, an operation portion 13, and a fulcrum portion 14. Further, the lock arm 8 has a housing side arm portion 15 as a part of the upper wall 7.

  The holding lock portion 10 is formed to be a substantially claw-shaped portion. The holding lock portion 10 is omitted here, but a locking surface for holding the terminal portion 9 of the FPC 6, a tapered surface for smoothly getting over the terminal portion 9, and these locking surface and taper And a top surface located between the surfaces (see FIG. 2). The holding lock portion 10 is formed in a rectangular shape in plan view. Such a holding lock portion 10 is arranged at the center position in the width direction of the housing 3. The holding lock portion 10 is disposed on the front end (front surface) side of the housing 3. The holding lock portion 10 moves in the vertical direction in the housing internal space 11.

  The arm portion 12 has a plate-like shape formed in a state substantially parallel to the lock-side continuous portion 12 a continuous to the holding lock portion 10, the operation-side continuous portion 12 b continuous to the operation portion 13, and the outer surface of the upper wall 7. It is formed so as to have a (band-plate-like) arm main body 12c. The lock-side continuous portion 12a is formed so as to protrude upward from the holding lock portion 10. The arm body 12c is coupled to the lock side continuous portion 12a and is formed in a cantilever shape. The arm main body 12 c is formed so as to extend straight from the center position in the width direction of the housing 3 toward one side wall of the housing 3.

  The operation unit 13 is formed as a portion to which an external force (pressing force by a finger) can be applied. The operation portion 13 is formed in a substantially tab-like shape that extends from the operation-side continuous portion 12b and slightly exceeds the front end (front surface) position of the housing 3. It should be noted that the direction in which an external force is applied is a direction in which the operation unit 13 is brought closer to the outer surface of the upper wall 7.

  The fulcrum part 14 is formed integrally with the arm main body 12c (surface facing the outer surface of the upper wall 7). The fulcrum part 14 is formed in a substantially bowl shape in this embodiment (the shape is an example. The shape is not particularly limited as long as it has a function as a fulcrum in the insulator). The fulcrum part 14 is formed so as to protrude downward. The fulcrum part 14 is disposed and formed so as to be positioned between the operation part 13 and the holding lock part 10 (the position of the fulcrum part 14 is set in consideration of a force such as when unlocking). . The fulcrum part 14 is arranged and formed so that the tip thereof is slightly separated from the outer surface of the upper wall 7.

  The housing side arm portion 15 is formed in a state where a slit is formed in the upper wall 7. The housing side arm portion 15 is formed as an elastically deformable portion continuous with the holding lock portion 10. The housing side arm portion 15 is formed to face the arm main body 12c and to have the same width as this.

  Even if the lock arm 8 is integrated with the upper wall 7, the housing 3 has a low profile because the lock arm 8 is formed in the shape described above.

  The terminal 4 includes a substrate contact leg 4a soldered to the surface of the substrate 2, a housing held portion 4b held by the housing 3, and a cantilever shape that elastically contacts a circuit (not shown) of the FPC 6. And a terminal pressing portion 4d positioned above the electrical contact portion 4c in consideration of the thickness of the terminal portion 9 of the FPC 6, and is formed in, for example, the shape shown in the figure (see FIG. 2). ). The electrical contact portion 4c and the terminal pressing portion 4d are arranged so as to be exposed to the housing internal space 11.

  The terminal portion 9 of the FPC 6 includes a terminal 9a of the FPC 6 and a reinforcing plate 9b (plate member) that is integrated with the terminal 9a by retrofitting. The reinforcing plate 9b has a portion 9c that can be inserted into and removed from the housing internal space 11, and a pair of positioning portions 9d for positioning and fixing the terminal 9a of the FPC 6. A holding hole 9e having a rectangular shape in plan view is formed in the insertable / removable portion 9c. The holding hole 9e is formed in accordance with the position and shape of the holding lock 10. Reference numeral 9 f indicates a stopper portion that can contact the front surface of the housing 3.

  In this embodiment, the holding hole 9e is formed only in the reinforcing plate 9b (this is an example. For example, after the reinforcing plate 9b and the terminal 9a are overlapped, the holding hole 9e is formed in both of them. May be formed in a penetrating manner). The holding hole 9e is not particularly designated, but has a locked surface. The front end of the reinforcing plate 9b comes into contact with the tapered surface of the holding lock 10. The reinforcing plate 9b is fixed so as to overlap the terminal 9a.

  Next, the insertion / removal of the terminal portion 9 of the FPC 6 will be described based on the above configuration and structure.

  2A and 2B, when the end portion 9 of the FPC 6 is inserted into the housing internal space 11 of the housing 3 with the reinforcing plate 9b facing upward, the tip of the reinforcing plate 9b is a taper of the holding lock portion 10. Contact the surface. As a result, an upward force acts on the lock arm 8 as indicated by an arrow P. Accordingly, the holding lock portion 10 moves upward.

  When the holding lock portion 10 moves upward, the insertion of the terminal portion 9 proceeds accordingly, and when the terminal portion 9a is inserted between the electric contact portion 4c and the terminal pressing portion 4d, the electric contact portion 4c and the FPC 6 Are electrically connected to a circuit (not shown). Finally, when the holding lock portion 10 returns to the original position and engages with the holding hole 9e to form a locked state, the insertion of the terminal portion 9 of the FPC 6 is completed. The terminal portion 9 of the FPC 6 is held in a state where no disconnection occurs (see FIG. 2C).

  On the other hand, when the terminal portion 9 of the FPC 6 is detached from the housing internal space 11, the operation is performed from the state shown in FIG. 3A (the terminal portion 9 is omitted) as indicated by an arrow Q in FIG. Press the part 13. Thereby, the fulcrum part 14 contacts the outer surface of the upper wall 7 and functions as a fulcrum of the insulator. When the lock arm 8 is further elastically deformed as shown in the figure by continuing to press, the holding lock portion 10 moves upward.

  When the holding lock portion 10 moves upward, the position of the holding lock portion 10 becomes a non-engagement position with respect to the position of the holding hole 9e, so that the terminal portion 9 of the FPC 6 can be pulled out from the housing internal space 11. become able to. Accordingly, the withdrawal is completed when it is pulled out.

  As described above, according to the FPC / FFC connector 1 of the present invention, since the lock arm 8 for holding the terminal portion 9 of the FPC 6 is integrated with the housing 3, there are few separate parts. Therefore, the number of parts can be reduced as compared with the conventional one.

  Further, according to the FPC / FFC connector 1 of the present invention, since the terminal portion 9 is held and released by the elastically deformable lock arm 8, the conventional lock, i.e., a lock that rotates with respect to the housing. There exists an effect that size reduction can be achieved compared with what has a member.

  In addition, according to the FPC / FFC connector 1 of the present invention, there is an effect that it can be made advantageous in terms of cost by downsizing.

  Further, according to the FPC / FFC connector 1 of the present invention, since the terminal portion 9 is held by the engagement between the holding lock portion 10 and the holding hole 9e, it is advantageous in terms of work. There is an effect that it can be made.

  Further, according to the FPC / FFC connector 1 of the present invention, the locked state and the engaged state of the holding lock portion 10 and the holding hole 9e can be easily released simply by applying an external force to the operation portion 13. Therefore, there is an effect that it can be made more advantageous in terms of work.

  Next, another embodiment of the FPC / FFC connector according to the present invention will be described with reference to FIGS. 4 to 8 (note that members that are basically the same as those described above are given the same reference numerals). (The explanation is omitted.)

  4 is an exploded perspective view showing another embodiment, FIG. 5 is a perspective view of the FPC / FFC connector when viewed from the front side of the housing, and FIG. 6 is a perspective view of the FPC / FFC connector when viewed from the rear side of the housing. FIG. 7 is a perspective view of the FPC / FFC connector. FIG. 8 is a diagram showing a process at the time of insertion or removal of the terminal portion of the FPC or FFC. FIG. 8A is a cross-sectional view showing a state after the insertion, and FIGS. 8B and 8C are diagrams. Sectional drawing which shows the state in the middle of insertion, FIG.8 (d) and (e) are sectional drawings which show the state in the middle of detachment | leave.

  In FIG. 4, an FPC / FFC connector 21 (FPC connector) of the present invention is mounted on the surface of a substrate 2, and is housed in a housing 22 made of synthetic resin having insulation properties and this housing 22. A plurality of conductive terminals 23 and conductive fixing brackets 5 provided on both side walls of the housing 22 are provided. The FPC / FFC connector 21 is a multipolar connector. The FPC / FFC connector 21 can electrically connect the FPC 6 (see FIGS. 1 and 8; the same applies hereinafter). The FPC / FFC connector 21 can hold the terminal portion 9 of the FPC 6 by a lock arm 25 that is integrated with the upper wall 24 of the housing 22.

  4 to 7, the housing 22 is formed in a wide shape so that a plurality of terminals 23 can be accommodated in a horizontal row. The housing 22 is a housing in which a part of the terminal 23 is exposed, the terminal portion 9 of the FPC 6 advances and retreats, and a holding lock portion 26 described later moves in a direction orthogonal to the advancing and retreating direction of the terminal portion 9. An internal space 27 is provided.

  The lock arm 25 integrated with the upper wall 24 of the housing 22 is a part for holding the terminal portion 9 of the FPC 6, and is made of resin since it is integrated with the upper wall 24. Is formed. The lock arm 25 includes a part of the upper wall 24. The lock arm 25 will be described in more detail. The lock arm 25 includes a holding lock portion 26, an arm portion 28, an operation portion 29, a fulcrum portion 30, and a housing side arm portion 31 as a part of the upper wall 24. have.

  The holding lock portion 26 is formed to be a substantially claw-shaped portion. The holding lock portion 26 has a locking surface, a tapered surface, and a top surface. The holding lock portion 26 has the same function as the holding lock portion 10 of the above-described form, and is formed in a rectangular shape in plan view. Such a holding lock portion 26 is arranged in accordance with the center position in the width direction of the housing 22. Further, the holding lock portion 26 is disposed at an intermediate position in the front-rear direction of the housing 22. The holding lock portion 26 moves in the vertical direction in the housing internal space 27.

  The arm portion 28 is formed in a plate shape formed in a state substantially parallel to the lock side continuous portion 28 a continuous to the holding lock portion 26, the operation side continuous portion 28 b continuous to the operation portion 29, and the outer surface of the upper wall 24. And an L-shaped arm body 28c. The lock side continuous portion 28 a is formed so as to protrude upward from the holding lock portion 26. The arm body 28c is coupled to the lock side continuous portion 28a and formed in a cantilever shape. The arm main body 28c is formed in an L-shape that extends from the central position in the width direction of the housing 22 toward one side wall of the housing 22 and extends toward the front end (front surface) of the housing 22 after turning 90 °. (It is formed in a shape that is substantially L-shaped in plan view).

  The operation unit 29 has the same function as the operation unit 13 having the above configuration. Moreover, the fulcrum part 30 also has the same function and shape as the fulcrum part 14 of the said form. The fulcrum part 30 is arranged and formed so that the tip thereof is slightly separated from the outer surface of the upper wall 24.

  The housing side arm portion 31 is formed in a state in which a slit is made in the upper wall 24. The housing side arm portion 31 is formed as an elastically deformable portion that is continuous with the holding lock portion 26. The housing-side arm portion 31 has a pair of continuous portions 31a extending in the front-rear direction of the housing 22 and continuing to the holding lock portion 26, and a base portion 31b in which the continuous portion 31a is continuous. The base portion 31 b is disposed so as to be positioned on the front end (front surface) side of the housing 22.

  Even if the lock arm 25 is integrated with the upper wall 24, the housing 22 has a low profile because the lock arm 25 is formed in the shape described above.

  The terminal 23 is a cantilever shape that contacts a circuit (not shown) of the FPC 6 with a board contact leg 23 a soldered to the surface of the board 2, a housing held part 23 b held by the housing 22, and an FPC 6. Electrical contact portion 23c (see FIG. 4). The electrical contact portion 23 c is disposed so as to be exposed to the housing internal space 27.

  Next, the insertion / removal of the terminal portion 9 of the FPC 6 will be described based on the above configuration and structure and with reference to FIG. FIG. 8A shows a state after insertion.

  8B and 8C, when the end portion 9 of the FPC 6 is inserted into the housing internal space 27 of the housing 22 with the reinforcing plate 9b facing upward, the tip of the reinforcing plate 9b is a taper of the holding lock portion 26. Abutting on the surface (black circles in FIG. 8C indicate abutment). As a result, an upward force acts on the lock arm 25 as indicated by an arrow P. Accordingly, the holding lock portion 26 moves upward.

  When the holding lock portion 26 moves upward, the insertion of the terminal portion 9 advances accordingly, and when the terminal portion 9a is fully inserted, the electrical connection between the electrical contact portion 23c and a circuit (not shown) of the FPC 6 is established. Done. Finally, when the holding lock portion 26 returns to the original position and engages with the holding hole 9e to form a locked state, the insertion of the terminal portion 9 of the FPC 6 is completed. The terminal portion 9 of the FPC 6 is held in a state where no disconnection occurs (see FIG. 8A).

  On the other hand, when the terminal portion 9 of the FPC 6 is detached from the housing internal space 27, the operation portion 29 is pressed as indicated by an arrow Q in FIG. As a result, the fulcrum portion 30 abuts on the outer surface of the upper wall 24 and functions as a fulcrum of the insulator (see FIG. 8D). When the lock arm 25 is further elastically deformed by continuing to press, the holding lock portion 26 moves upward by this elastic deformation.

  When the holding lock portion 26 moves upward, the position of the holding lock portion 26 becomes a non-engagement position with respect to the position of the holding hole 9e, so that the terminal portion 9 of the FPC 6 can be pulled out from the housing internal space 27. become able to. Accordingly, the withdrawal is completed when it is pulled out.

  As can be understood from the above description, it goes without saying that the FPC / FFC connector 21 of the present invention has the same effect as the FPC / FFC connector 1.

  Subsequently, still another embodiment of the FPC / FFC connector of the present invention will be described with reference to FIGS. 9 to 11 (in addition, members that are basically the same as those in the above embodiment are given the same reference numerals). Will be omitted).

  9 to 11, an FPC / FFC connector 41 (FPC connector) according to the present invention is mounted on the surface of the substrate 2, and includes an insulating synthetic resin housing 42, and the housing 42. A plurality of conductive terminals 23 to be accommodated and conductive fixing metal fittings 5 provided on both side walls of the housing 42 are provided. The FPC / FFC connector 41 is a multipolar connector. The FPC / FFC connector 41 can electrically connect the FPC 6 (see FIG. 1; not shown in the present embodiment). Further, the FPC / FFC connector 41 can hold the terminal portion 9 of the FPC 6 by a lock arm 44 integrated with the upper wall 43 of the housing 42.

  The housing 42 is formed in a wide shape so that the plurality of terminals 23 can be accommodated in a horizontal row. The housing 42 is a housing in which a part of the terminal 23 is exposed, the terminal portion 9 of the FPC 6 advances and retreats, and a holding lock portion 45 described later moves in a direction perpendicular to the advancing and retreating direction of the terminal portion 9. An internal space 46 is provided.

  The lock arm 44 integrated with the upper wall 43 of the housing 42 is a part for holding the terminal portion 9 of the FPC 6, and is made of resin since it is integrated with the upper wall 43, so that it can be elastically deformed. Is formed. The lock arm 44 includes a holding lock portion 45, an M-shaped arm portion 47 in plan view, an operation portion 48, and a pair of fulcrum portions 49. The function of each part of the lock arm 44 is basically the same as the function of each part of the lock arm 25 of the above-described form, and detailed description thereof will be omitted here.

  Even if the lock arm 44 is integrated with the upper wall 43, the housing 42 has a low profile.

  The insertion / removal of the terminal portion 9 of the FPC 6 will be described based on the above configuration.

  In FIG. 11A, when the end portion 9 of the FPC 6 is inserted into the housing internal space 46 of the housing 42 with the reinforcing plate 9 b facing up, the tip of the reinforcing plate 9 b comes into contact with the tapered surface of the holding lock portion 45. (See arrow R and small circle). As a result, an upward force acts on the lock arm 44 as indicated by an arrow P. Although not particularly shown here, the holding lock portion 45 moves upward.

  When the holding lock portion 45 moves upward, the insertion of the terminal portion 9 advances along with this, and when the terminal portion 9a is inserted all the way, the electrical connection between the electrical contact portion 23c and a circuit (not shown) of the FPC 6 is established. Done. Finally, when the holding lock portion 45 returns to the original position and engages with the holding hole 9e to form a locked state, the insertion of the terminal portion 9 of the FPC 6 is completed. The terminal portion 9 of the FPC 6 is held in a state where no disconnection occurs.

  On the other hand, when the terminal portion 9 of the FPC 6 is detached from the housing internal space 46, the operation portion 48 is pressed to function as a fulcrum portion 49 as indicated by an arrow Q in FIG. To serve as a fulcrum). When the lock arm 44 is elastically deformed, the holding lock portion 45 moves upward as indicated by an arrow T due to the elastic deformation.

  When the holding lock portion 45 moves upward, the position of the holding lock portion 45 becomes a non-engagement position with respect to the position of the holding hole 9e, so that the terminal portion 9 of the FPC 6 can be pulled out from the housing internal space 46. become able to. Accordingly, the withdrawal is completed when it is pulled out.

  It goes without saying that the FPC / FFC connector 41 of the present invention has the same effects as the FPC / FFC connectors 1 and 21.

  In addition, the present invention can of course be modified in various ways within the scope not changing the gist of the present invention.

It is a perspective view which shows one Embodiment of the FPC / FFC connector of this invention. It is a figure which shows the process at the time of inserting the terminal part of FPC or FFC in a housing, (a) is sectional drawing which shows the state just before insertion, (b) is sectional drawing which shows the state in the middle of insertion, (c) is It is sectional drawing which shows the state after insertion. It is a figure which shows the process at the time of releasing the terminal part of FPC or FFC from a housing, (a) is a housing front view which shows the state before elastic deformation of a lock arm, (b) is after lock arm elastic deformation at the time of removal. It is a housing front view which shows the state. It is a disassembled perspective view which shows other one Embodiment of the FPC / FFC connector of this invention. It is a perspective view of an FPC / FFC connector when viewed from the front side of the housing. It is a perspective view of the FPC / FFC connector when viewed from the back side of the housing. It is sectional drawing of a FPC / FFC connector. It is a figure which shows the process at the time of insertion or detachment | leave of the terminal part of FPC or FFC, (a) is sectional drawing which shows the state after insertion, (b) And (c) is sectional drawing which shows the state in the middle of insertion, (D) And (e) is sectional drawing which shows the state in the middle of detachment | leave. It is a perspective view which shows another one Embodiment of the FPC / FFC connector of this invention. It is a figure of the FPC / FFC connector of FIG. 9, (a) is a top view, (b) is a front view. It is a figure which shows the process at the time of insertion or detachment | leave of the terminal part of FPC or FFC, (a) is sectional drawing at the time of insertion, (b) It is sectional drawing at the time of detachment | leave.

Explanation of symbols

1 FPC / FFC connector 2 Board 3 Housing 4 Terminal 5 Fixing bracket 6 FPC (FPC / FFC)
7 Upper wall 8 Lock arm 9 Terminal part 10 Holding lock part 11 Housing internal space 12 Arm part 13 Operation part 14 Support part 15 Housing side arm part 21 FPC / FFC connector 22 Housing 23 Terminal 24 Upper wall 25 Lock arm 26 For holding Lock part 27 Housing internal space 28 Arm part 29 Operation part 30 Support point part 31 Housing side arm part 41 FPC / FFC connector 42 Housing 43 Upper wall 44 Lock arm 45 Holding lock part 46 Housing internal space 47 Arm part 48 Operation part 49 Support point Part

Claims (5)

An insulating synthetic resin housing and a plurality of terminals accommodated in the housing, and the housing includes a holding lock portion that engages with a holding hole provided in a terminal portion of the FPC or FFC. An FPC / FFC connector having an arm portion continuous to the holding lock portion and forming an elastically deformable lock arm that can be interlocked with the holding lock portion;
The lock arm is integrally formed with the housing, and in addition to the holding lock portion and the arm portion, an operation portion as a portion to which an external force is applied, and between the operation portion and the holding lock portion And a fulcrum part located at
Further, when the lock arm is moved from the state where the position of the holding lock portion is in the engagement position with respect to the position of the holding hole to the state where the external force is applied to the operation portion, the fulcrum portion The FPC / FFC connector is characterized in that elastic deformation occurs at a base point and the position of the holding lock portion moves to a non-engagement position with respect to the position of the holding hole. The FPC / FFC connector according to claim 1,
The housing has an internal space in which a part of the terminal is exposed and the terminal portion of the FPC or FFC advances and retracts and the holding lock portion moves in a direction perpendicular to the advancing / retreating direction of the terminal portion. An FPC / FFC connector characterized by comprising: In the FPC / FFC connector according to claim 1 or 2,
The arm portion includes a lock-side continuous portion that is continuous with the holding lock portion, an operation-side continuous portion that is continuous with the operation portion, and a plate-like arm main body that extends substantially parallel to the outer surface of the housing. An FPC / FFC connector characterized by comprising: In the FPC / FFC connector according to claim 2 or 3,
The housing has an elastically deformable housing-side arm portion continuous with the holding lock portion, while the fulcrum portion of the lock arm has an outer surface of the housing when the holding lock portion is in the engagement position. The FPC / FFC connector is formed so as to be separated from the outer surface and to come into contact with the outer surface when the elastic deformation occurs. In the FPC / FFC connector according to any one of claims 1 to 4,
The FPC / FFC connector is characterized in that the terminal portion of the FPC or FFC includes a plate member having the holding hole, and the holding hole is formed only in the plate member.

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