JP5999541B2 - connector - Google Patents

Description

  The present invention relates to a connector to which a flexible printed wiring board is connected.

  2. Description of the Related Art Conventionally, in various electronic devices such as mobile phones and digital cameras, circuits of electronic devices are electrically connected using a flexible printed wiring board having flexibility. The flexible printed wiring board is electrically connected to a circuit or the like via a connector into which the flexible printed wiring board can be inserted and removed.

  As this type of connector, for example, as shown in FIG. 5, a connector 501 including a plurality of signal contacts 511 and a ground contact 512 is known (for example, Patent Document 1).

  The connector 501 includes a housing 513 in which a plurality of signal contacts 511 and a ground contact 512 are assembled. The connector 501 is an opening / closing cover that can selectively take a locked position for fixing an electrical connection between a signal line (not shown) of the flexible substrate 502 and the signal contact 511 and an unlocked position other than the locked position. 514.

  The ground contact 512 of the connector 501 is electrically connected to a ground connection portion (not shown) connected to a conductive shield member (not shown) surrounding the signal line in the flexible substrate 502. A connection portion 561 is provided. The ground contact 512 includes a press-fitting piece 563 that is press-fitted into the housing 513. Furthermore, the ground contact 512 includes a reinforcing portion 562 that reinforces the side wall of the housing 513 and a fixing tab 564 that is electrically connected to the land 533 of the printed wiring board 503 by soldering. The ground contact 512 includes a connection portion 561, a press-fitting piece 563, a reinforcement portion 562, and a fixing tab 564.

  In the connector 501, when the flexible substrate 502 is inserted so that the signal connection portion of the signal line faces the signal contact 511, the signal contact 511 is electrically connected to the signal line when the open / close cover 514 is positioned at the lock position. Connected. The connector 501 has the ground contact 512 electrically connected to the shield member side when the open / close cover 514 is located at the lock position. The connector 501 is in the locked position when the opening / closing cover 514 closes the opening 513 a of the housing 513.

  In addition, the connector 501 forms an insertion opening into which the flexible board 502 is inserted at the side wall of the housing 513 and the front end portions of the eaves-like protrusions 575a and 575b. The connector 501 is formed with a tapered surface 579 for guiding the flexible board 502 into the insertion port inside the side wall end of the housing 513 at the insertion port.

  In addition, the protection board 523 is adhere | attached on the edge part of the surface on the opposite side of the connection surface in the flexible substrate 502, and the flexible substrate 502 has improved the rigidity of the edge part of the flexible substrate 502. FIG.

  It is considered that the connector 501 of Patent Document 1 can easily guide the flexible substrate 502 into the housing 513 due to the shape of the connection portion 561 and the tapered surface 579.

JP 2006-134708 A

  By the way, the connector has a low profile that is thin so that it can be miniaturized, and the height from the surface of the mounting board on which the connector is mounted to the insertion port of the connector where the flexible printed wiring board is inserted is also high. Low. Therefore, when the flexible printed wiring board is inserted into the insertion slot of the housing, the flexible printed wiring board has a problem that the distal end portion of the flexible printed wiring board is caught by the portion around the insertion opening of the connector and is difficult to insert into the insertion slot. Will occur. In recent years, with the demand for further downsizing of electronic devices, connectors have been required to have a low-profile structure that can be made thinner. When the connector is made thinner, the height dimension of the insertion port of the connector into which the flexible printed wiring board is inserted becomes smaller. Therefore, the connector tends to be more difficult to insert the flexible printed wiring board into the insertion port of the connector when the flexible printed wiring board is inserted.

  The present invention has been made in view of the above points, and an object thereof is to provide a connector capable of easily inserting a flexible printed wiring board into an insertion port.

The connector of the present invention, a housing provided with an insertion port into which a flexible printed wiring board is inserted, a plurality of contacts having contact portions that can contact the conductor pattern of the flexible printed wiring board inserted into the housing, A lever that can be raised and lowered with respect to the housing between a position where the contact is pressed and a position where the contact is not pressed in the thickness direction of the flexible printed wiring board so that the conductor pattern and the contact portion are pressed against each other in the housing. A guide portion for placing the flexible printed wiring board and guiding the insertion of the flexible printed wiring board into the insertion port, and at a position where the lever does not press the contact. Temporarily holding the flexible printed wiring board inserted in the insertion port Lexical Bull printed wiring board and a suppressing holding metal that exits from the insertion opening, the guide portion is forward of the insertion opening in the disconnect direction in which the flexible printed wiring board is withdrawn from the housing, And it is provided in the said holding metal fitting so that it may protrude ahead rather than the terminal part by the side of the said insertion port of the said some contact in the said extraction direction .

In this connector, the guide portion includes a placement portion on which the flexible printed wiring board can be placed, and a height position correction portion that guides insertion of the flexible printed wiring board from the placement portion into the insertion port. The height position correction unit rises from the height of the mounting portion, which is on the outer bottom surface side of the housing relative to the height position correction unit, and is provided at the tip of the contact on the insertion port side. it is preferably has a height substantially equal to the height of the contact portions which are electrically connected to the terminal section.

In this connector, the guide portion may have an inclination angle of the height position correction portion with respect to the insertion / extraction direction of the flexible printed wiring board substantially the same as an inclination angle with respect to the insertion / extraction direction of the distal end edge portion of the terminal portion. Is preferred .

  The connector of the present invention has an effect that the flexible printed wiring board can be easily inserted into the insertion port.

It is a perspective explanatory view of the connector of this embodiment. FIG. 2 is a schematic cross-sectional view taken along line 2A-2A in FIG. FIG. 3 is a schematic cross-sectional view taken along 3A-3A in FIG. It is a fragmentary sectional view which shows the use condition of a connector same as the above. It is a perspective explanatory view showing a conventional connector.

  Hereinafter, the connector 10 of this embodiment is demonstrated based on FIG. 1 thru | or FIG.

The connector 10 of this embodiment includes a housing 2 having an insertion port 21 into which a flexible printed wiring board (hereinafter also referred to as FPC) 100 is inserted. Further, the connector 10 includes a contact 3 having a projecting portion 32a (see FIGS. 1 and 2) serving as a contact portion that can contact the conductor pattern 101 of the FPC 100 inserted into the housing 2. Similarly, the connector 10 includes a contact 4 having a projecting portion 42 a (see FIGS. 1 and 3) serving as a contact portion that can contact the conductor pattern 101 of the FPC 100 inserted into the housing 2. Further, the connector 10 is attached to the housing 2 between a position where the contacts 3 and 4 are pressed in the thickness direction of the FPC 100 and a position where the contacts are not pressed so that the conductor pattern 101 and the projecting portions 32a and 42a are pressed in the housing 2. On the other hand, a lever 5 that can be raised and lowered is provided. In addition, the housing 2 of the connector 10 includes a guide portion 1 a that places the FPC 100 and guides the insertion of the FPC 100 into the insertion port 21 so as to protrude forward of the insertion port 21.

  In the connector 10 of this embodiment, the conductor pattern 101 provided on one main surface of the FPC 100 and the projecting portions 32a and 42a provided on the spring portions 32 and 42 are electrically contacted to function as contact portions. I am letting. The connector 10 is not limited to the case where the connector 10 is connected to the conductor pattern 101 provided on one main surface of the FPC 100, and the conductor pattern 101 provided on the other main surface facing the one main surface of the FPC 100, and the support portions 31 and 41. The protruding portions 31a and 41a provided on the surface may be in electrical contact with each other. In this case, in the connector 10, the protruding portions 31a and 41a provided on the support portions 31 and 41 function as contact portions. In addition, the connector 10 is provided on the conductor pattern 101 provided on each of the one main surface and the other main surface of the FPC 100, the projecting portions 32 a and 42 a provided on the spring portions 32 and 42, and the support portions 31 and 41. The projecting portions 31a and 41a thus formed can be brought into electrical contact. In this case, in the connector 10, the protruding portions 32 a and 42 a provided on the spring portions 32 and 42 and the protruding portions 31 a and 41 a provided on the support portions 31 and 41 function as contact portions, respectively.

  More specifically, the connector 10 of this embodiment includes a housing 2, contacts 3 and 4, a lever 5, and a holding metal fitting 1 as main components.

  The holding metal fitting 1 in the connector 10 according to the present embodiment includes a guide portion 1 a that places the FPC 100 and guides the insertion of the FPC 100 into the insertion port 21, and can temporarily hold the FPC 100 on the connector 10. It is. In other words, the guide portion 1 a of the connector 10 is a holding metal fitting 1 that temporarily holds the FPC 100 inserted into the insertion port 21 and prevents the FPC 100 from coming out of the insertion port 21 at a position where the lever 5 does not press the contacts 3 and 4. Is provided.

  The housing 2 is made of a synthetic resin molded product having electrical insulation. The housing 2 is formed in a rectangular tube shape as a whole so that the FPC 100 can be inserted and removed. The housing 2 includes a base wall 2b on the mounting substrate (not shown) side on which the connector 10 is mounted, a pair of side walls 2c and 2c protruding from both ends of the base wall 2b, and the base wall 2b. And a cover wall 2a provided substantially parallel to the base wall 2b. As shown in FIGS. 2 and 3, the housing 2 has an internal contact storage space 20 on one end side (lower side in FIGS. 2 and 3) in the insertion / extraction direction of the FPC 100 (the vertical direction in FIGS. 2 and 3). An insertion port 21 that communicates with the outside is opened. In addition, when the contact 10 is mounted on the mounting board arrange | positioned on the horizontal surface, the insertion / extraction direction turns into one horizontal direction. Further, the housing 2 is formed with an opening portion 22 provided so as to cut out a part of the cover wall portion 2a on the other end side in the insertion / extraction direction of the FPC 100 (upper side in FIGS. 2 and 3). In the housing 2, a contact housing space 20 for housing the contacts 3 and 4 is formed inside the housing 2. The contact storage space 20 is partitioned into a plurality of storage chambers by partition walls 23 provided at a predetermined pitch in the left-right direction of the housing 2 perpendicular to the insertion / extraction direction of the FPC 100. The contact storage space 20 stores one contact 3 or one contact 4 in each storage chamber. In addition, a guide groove 24 that opens to the insertion port 21 side and guides the main surface of the FPC 100 that is inserted from the insertion port 21 is formed in the partition wall 23 along the insertion / extraction direction of the FPC 100. The partition wall 23 is provided with a positioning surface 23 a that abuts the front end portion of the FPC 100 and restricts the insertion of the FPC 100 and positions the FPC 100 so that the FPC 100 is not inserted into the housing 2 too much.

  The contacts 3 and 4 are made of, for example, a metal material having excellent elasticity and conductivity, such as phosphor bronze, and a nickel base formed on the surface of phosphor bronze is plated with Au. Yes. In the contacts 3 and 4, contacts 3 and contacts 4 are alternately arranged in the left-right direction of the housing 2. Here, one of the contacts 3 is arranged at an odd number from the one end in the left-right direction of the housing 2 among the contacts 3 and the contacts 4 arranged alternately. The other contact 4 is arranged even-numbered from one end in the left-right direction of the housing 2 among the contacts 3 and the contacts 4 arranged alternately.

  As shown in FIG. 2, the odd-numbered contacts 3 are provided along the insertion / extraction direction of the FPC 100 inside the contact storage space 20, and have support portions 31 supported by the base wall portion 2 b of the housing 2. . The contact 3 has a spring portion 32 that is provided in the contact housing space 20 along the insertion / extraction direction of the FPC 100 and can be elastically deformed in the thickness direction of the FPC 100. Further, the contact 3 has a connection portion 33 that is connected to the support portion 31 and the spring portion 32 in a continuous and integrated manner on the other end side of the intermediate portion in the insertion / extraction direction of the FPC 100. That is, the contact 3 is formed in an H shape by the support portion 31, the spring portion 32, and the connection portion 33. The contact 3 is inserted into each storage chamber from the insertion port 21 side, and the inserted FPC 100 can be clamped between the support portion 31 and the spring portion 32.

  The support portion 31 of the contact 3 is disposed in the contact storage space 20 in a state where the support portion 31 is in contact with the bottom surface in the housing 2 (the top surface of the base wall portion 2b). In the support portion 31, the distal end portion on the insertion port 21 side is configured to be substantially flush with the outer bottom surface of the housing 2 (the lower surface of the base wall portion 2 b) from the cutout portion 2 aa provided in the base wall portion 2 b of the housing 2. An extended terminal portion 34 is provided. The terminal portion 34 functions as a terminal that can be soldered to a wiring pattern of a mounting board (not shown) on which the connector 10 is mounted. Further, the support portion 31 is provided with a projecting portion 31 a that is opposed to the projecting portion 32 a provided at the distal end portion of the spring portion 32, approximately in the middle between the distal end side and the connecting portion side of the support portion 31. Yes.

  The contact 3 includes an engagement protrusion 35 that protrudes toward the spring 32 on the other end side of the connection portion 33 in the support portion 31. The engagement protrusion 35 is engaged with a recess 2ea provided between the cover wall 2a and the base wall 2b of the housing 2 and provided in the middle wall 2e formed integrally with the adjacent partition walls 23, 23. ing. The contact 3 prevents the contact 3 from coming out of the housing 2 by the engagement protrusion 35 and the recess 2ea of the middle wall 2e engaging.

  The spring portion 32 of the contact 3 has a semicircular recess in which the cam portion 51 of the lever 5 is inserted on the surface facing the support portion 31 on the opening 22 side of the portion supported by the connection portion 33. 36 is formed. Further, at the tip of the spring portion 32, a protruding portion 32 a that protrudes toward the support portion 31 is protruded from a portion facing the protruding portion 31 a of the support portion 31. When the lever 5 is lowered with respect to the housing 2, the connector 10 presses the spring portion 32 of the contact 3 in the thickness direction of the FPC 100. That is, in the connector 10, the cam portion 51 of the lever 5 contacts the recess 36 of the spring portion 32 and presses the recess 36. The connector 10 is configured such that the FPC 100 inserted between the support portion 31 and the spring portion 32 can be sandwiched between the protrusion portion 31a on the support portion 31 side and the protrusion portion 32a on the spring portion 32 side. doing.

  Further, as shown in FIG. 3, the even-numbered contacts 4 are provided along the insertion / extraction direction of the FPC 100 inside the contact storage space 20, and have support portions 41 supported by the base wall portion 2 b of the housing 2. ing. Further, the contact 4 has a spring portion 42 that is provided in the contact storage space 20 along the insertion / extraction direction of the FPC 100 and can be elastically deformed in the thickness direction of the FPC 100. Further, the contact 4 has a connecting portion 43 that is connected to the support portion 41 and the spring portion 42 in a continuous and integrated manner on the other end side of the intermediate portion in the insertion / extraction direction of the FPC 100. That is, the contact 4 is formed in an H shape by the support portion 41, the spring portion 42, and the connection portion 43. The contact 4 is inserted into each storage chamber from the opening 22 side, and the FPC 100 inserted from the insertion port 21 can be held between the support portion 41 and the spring portion 42.

  The support portion 41 of the contact 4 is disposed in the contact storage space 20 in a state where the support portion 41 is in contact with the bottom surface in the housing 2 (the top surface of the base wall portion 2b). At the end of the support portion 41 on the opening 22 side, the notch 2ba provided on the base wall 2b of the housing 2 is configured to be substantially flush with the outer bottom surface of the housing 2 (the lower surface of the base wall 2b). An extended terminal portion 44 is provided. The terminal portion 44 functions as a terminal that can be soldered to a wiring pattern of a mounting board (not shown) on which the connector 10 is mounted. In addition, the support portion 41 is provided with a protruding portion 41 a that protrudes toward the spring portion 42 side at the distal end portion of the support portion 41 on the insertion port 21 side.

  The contact 4 includes an engagement protrusion 45 that protrudes toward the spring portion 42 on the one end side of the connection portion 43 in the support portion 41. The engagement protrusion 45 engages with a recess 2eb provided between the cover wall 2a and the base wall 2b of the housing 2 and provided in the middle wall 2e integrally formed between the adjacent partition walls 23 and 23. doing. The contact 4 prevents the contact 4 from coming out of the housing 2 by the engagement protrusion 45 and the recess 2eb of the middle wall 2e engaging.

  The spring portion 42 of the contact 4 has a semicircular recess in which the cam portion 52 of the lever 5 is inserted on the surface facing the support portion 41 on the opening 22 side of the portion supported by the connection portion 43. 46 is formed. In addition, a projecting portion 42 a projecting toward the support portion 41 side is projected from a tip portion of the spring portion 42 at a portion facing the projecting portion 41 a of the support portion 41. When the lever 5 is lowered with respect to the housing 2, the connector 10 presses the spring portion 42 of the contact 4 in the thickness direction of the FPC 100. That is, in the connector 10, the cam portion 52 of the lever 5 contacts the recess 46 of the spring portion 42 and presses the recess 46. The connector 10 is configured such that the FPC 100 inserted between the support portion 41 and the spring portion 42 can be sandwiched between the protrusion portion 41a on the support portion 41 side and the protrusion portion 42a on the spring portion 42 side. doing.

  The lever 5 is formed of a synthetic resin having electrical insulation. The lever 5 is formed in a long plate shape elongated in the left-right direction of the housing 2. The lever 5 is pivotally held with respect to the housing 2 around the cam portions 51 and 52 provided on one end side on the housing 2 side, and is held by the housing 2 so as to be freely raised and lowered. As a result, the lever 5 is configured to press the contacts 3 and 4 in the thickness direction of the FPC 100 so that the conductor pattern 101 of the FPC 100 and the projecting portions 31a, 32a, 41a, and 42a are pressed in the housing 2. It can be raised and lowered with respect to the housing 2 between the positions not pressed. In other words, the lever 5 is rotatably held with respect to the housing 2 between a retaining position that makes the FPC 100 relatively difficult to remove from the connector 10 and a non-preventing position that makes the FPC 100 relatively easy to remove.

  The cam portion 51 of the lever 5 is provided to face the concave portion 36 of the contact 3. In the connector 10, the distance between the cam portion 51 and the recess 36 is changed by operating the lever 5. The connector 10 is in contact with the cam portion 51 and the recess 36 in a state where the lever 5 is depressed (prevention position), and in the state where the lever 5 is raised (non-prevention position) as shown in FIG. The recess 36 is in a separated state.

  Further, the cam portion 52 of the lever 5 is provided to face the concave portion 46 of the contact 4. In the connector 10, the distance between the cam portion 52 and the recess 46 is changed by the operation of the lever 5. The connector 10 is in contact with the concave portion 46 in the state where the lever 5 is depressed (prevention position), and in the state where the lever 5 is raised (non-prevention position) as shown in FIG. The recess 46 is in a separated state. The connector 10 can change the force with which the cam part 51 presses the recessed part 36 by changing the position of the cam part 51 in the lever 5. Similarly, the connector 10 can change the force with which the cam part 52 presses the recessed part 46 by changing the position of the cam part 52 in the lever 5. In the connector 10 in a state where the lever 5 is depressed (prevention position), the force with which the cam portion 52 presses the concave portion 46 of the contact 4 is stronger than the force with which the cam portion 51 presses the concave portion 36 of the contact 3. It is configured as follows.

  As shown in FIG. 4, the holding metal fitting 1 includes a U-shaped locking portion 1 d that locks with a first housing locking portion 2 d provided in the housing 2. In the holding metal fitting 1, one linear portion of the U-shaped locking portion 1 d extends along the side wall portion 2 c of the housing 2. The holding metal fitting 1 has an S-shaped tip portion formed on the tip side of the other linear portion of the U-shaped locking portion 1d. A part of the holding metal fitting 1 that is formed in an S shape protrudes toward the contact storage space 20, and is temporarily held to temporarily hold the FPC 100 by fitting with the temporary holding recess 103 provided in the FPC 100. Part 1c is configured. In addition, the holding metal fitting 1 includes a part of the holding metal fitting 1 that is formed in an S shape, and includes a position correcting portion 1 b on the insertion port 21 side in the insertion / extraction direction of the FPC 100. When the FPC 100 is inserted into the insertion port 21, the position correction unit 1 b can correct the positional deviation of the FPC 100 in the left-right direction of the housing 2 and can be guided to the insertion port 21. A part of the holding metal fitting 1 formed in an S shape is locked to a second housing locking part 2 f provided in the housing 2.

  When the insertion port 21 is viewed from the front, the connector 10 is provided with a pair of holding metal fittings 1 facing each other in the left-right direction of the housing 2. The holding metal 1 has a U-shaped outer shape when the insertion port 21 is viewed from the front, and the position correcting portion 1b appears to be accommodated inside the U-shaped. The holding metal fitting 1 is arranged so that the upper surface of one U-shaped one piece portion 1 f forms a plane substantially parallel to the cover wall portion 2 a of the housing 2 when the insertion port 21 is viewed from the front. Further, the holding metal fitting 1 is configured such that the lower surface of the other U-shaped other piece 1g is substantially flush with the outer bottom surface of the housing 2 (the lower surface of the base wall portion 2b) when the insertion port 21 is viewed in front. Are arranged as follows.

  The holding metal fitting 1 uses the tip of the U-shaped other piece 1g protruding forward of the housing 2 as a guide portion 1a. Therefore, the guide portion 1 a is provided in the housing 2 so as to protrude forward of the insertion port 21. The guide portion 1a has a placement portion 1a1 that has a plane substantially parallel to the base wall portion 2b and can place the FPC 100 thereon. In addition, the guide portion 1 a includes a height position correction portion 1 a 2 that guides insertion of the FPC 100 into the insertion port 21 without being caught with the terminal portion 34 of the contact 3. The placement portion 1a1 is thinner than the thickness of the base wall portion 2b and the terminal portion 34. Since the mounting portion 1a1 is made of a metal material, the strength can be maintained even if it is thinner than the base wall portion 2b. Here, the height position correction part 1a2 rises from the height of the mounting part 1a1 on the outer bottom surface side of the housing 2 relative to the height position correction part 1a2, and is provided at the tip of the contact 3 on the insertion port 21 side. The height is approximately equal to the height of the terminal portion 34 electrically connected to the protruding portion 32a.

  Further, in the guide portion 1a, the inclination angle of the height position correction portion 1a2 with respect to the insertion / extraction direction of the FPC 100 is substantially the same as the inclination angle of the tip edge portion 34a of the terminal portion 34 with respect to the insertion / extraction direction. In the guide portion 1a, the inclination angle of the height position correction portion 1a2 with respect to the insertion / extraction direction of the FPC 100 is preferably substantially the same as the inclination angle with respect to the insertion / extraction direction of the tip edge portion 34a of the terminal portion 34, but may be different. . In any case, the connector 10 can facilitate the insertion of the FPC 100 into the insertion port 21 as compared with the connector 10 that does not include the guide portion 1a. Further, when the guide portion 1a is not provided with the tip end edge portion 34a of the terminal portion 34, the height position correction portion is set so that the height of the height position correction portion 1a2 is higher than the top surface 34b of the terminal portion 34. What is necessary is just to set the inclination-angle with respect to the insertion / extraction direction of FPC100 of 1a2 suitably. In other words, the guide part 1a should just make height of the height position correction | amendment part 1a2 more than the top surface 34b in the terminal part 34, when the front-end | tip of the terminal part 34 is right angle with respect to the insertion / extraction direction.

  Since the guide portion 1a protrudes in front of the insertion port 21, the tip portion of the FPC 100 can be prevented from being caught by the terminal portion 34 protruding from the housing 2. The U-shaped one-piece portion 1f of the holding metal fitting 1 is provided with an opening cutout portion 1e so that the tip of the FPC 100 can be easily placed on the placement portion 1a1.

  That is, the connector 10 according to the present embodiment includes a guide portion 1a that corrects a positional deviation in the height direction of the FPC 100 when the holding metal fittings 1 provided on both side ends of the housing 2 insert the FPC 100 to facilitate insertion. Yes.

  The holding metal fitting 1 can be formed relatively easily by bending a plate-like body made of a metal material. In addition, what is necessary is just to provide notch part 1aa and 1da suitably in the holding | maintenance metal fitting 1 so that a bending process of a plate-shaped object may be performed easily. The holding metal fitting 1 may not only be provided with the notches 1aa and 1da, but may be one having a reduced plate thickness.

  By the way, when the connector 10 comprises the housing 2 using a synthetic resin molded product, it may be necessary to increase the strength of the housing 2 as the connector 10 is downsized. In the connector 10 of the present embodiment, the strength of the housing 2 can be improved by providing the holding metal fitting 1 that temporarily holds the FPC 100 at both end portions of the insertion port 21 of the housing 2.

  The holding metal fitting 1 can make it easy to insert the FPC 100 into the insertion port 21 by the position correcting portion 1b when the FPC 100 is inserted. Furthermore, in the connector 10 of the present embodiment, the guide portions 1 a of the holding metal fitting 1 provided at both end portions of the insertion port 21 of the housing 2 protrude forward from the housing 2. Therefore, the connector 10 guides the insertion of the FPC 100 from the mounting portion 1a1 along the height position correcting portion 1a2 only by pushing the FPC 100 mounted on the mounting portion 1a1 of the guide portion 1a into the insertion port 21. Is possible. That is, when the FPC 100 is inserted into the housing 2, the connector 10 can be easily inserted into the housing 2 while suppressing the catch of the contact 3 without the operator being aware of the position of the insertion port 21 accurately. It becomes.

  In the connector 10 of this embodiment, the position of the FPC 100 in the height direction is corrected by the guide portion 1a of the holding metal fitting 1, and the FPC 100 can be inserted while avoiding the terminal portion 34 protruding forward from the housing 2. Thereby, in the connector 10 of this embodiment, in the process of inserting the FPC 100 into the connector 10, it is possible to correct the positional deviation by the guide portion 1 a integrated with the holding metal fitting 1 to facilitate insertion.

  Therefore, even when the height of the insertion port 21 of the FPC 100 is reduced with the miniaturization of the connector 10, the connector 10 has a problem that the insertability of the FPC 100 is lowered due to the tip of the FPC 100 being caught by the terminal portion 34 at the time of insertion. It becomes possible to suppress.

  Hereinafter, an operation when the FPC 100 is inserted into and removed from the connector 10 of the present embodiment will be described.

Before connecting the FPC 100, the connector 10 is arranged at a position where the lever 5 is substantially upright (a position substantially orthogonal to the support portions 31 and 41 of the contacts 3 and 4) as shown in FIGS. 1, 2 and 3. It is. In the connector 10, the cam portion 51 does not press the concave portion 36 of the contact 3 in this state. Therefore, the contact 3 is not elastically deformed in the spring portion 32 and the connection portion 33, and the protruding portion 32 a of the spring portion 32 is at a predetermined interval at which the FPC 100 can be inserted and removed from the protruding portion 31 a of the support portion 31. is seperated. Similarly, in the connector 10, the cam portion 52 does not press the concave portion 46 of the contact 4 in this state. Therefore, the contact 4 is not elastically deformed in the spring portion 42 and the connection portion 43, and the protruding portion 42 a of the spring portion 42 has a predetermined interval at which the FPC 100 can be inserted and removed from the protruding portion 41 a of the support portion 41. is seperated. That is, in the state where the lever 5 is in the non-removable position, the connector 10 has a space between the protruding portion 31a and the protruding portion 32a of the contact 3 and between the protruding portion 41a and the protruding portion 42a of the contact 4 . Each of them is configured to have a separation distance larger than the thickness of the FPC 100.

  Therefore, the connector 10 can reduce the insertion resistance when the FPC 100 is inserted into the connector 10, and the soft FPC 100 can be easily inserted into the connector 10. The connector 10 may be such that the protruding portions 31a and 32a of the contact 3 and the protruding portions 41a and 42a of the contact 4 are in contact with the FPC 100 in a state where the lever 5 is rotated to the non-removable position. The connector 10 is inserted into the FPC 100 when the protruding portion 32a serving as the contact portion of the contact 3 or the protruding portion 42a serving as the contact portion of the contact 4 is in contact with the FPC 100 even when the lever 5 is rotated to the non-removable position. At the same time, an electrical connection can be established. Note that the connector 10 has a relatively small holding force for the contacts 3 and 4 to hold the FPC 100 as compared with the case where the lever 5 is in the retaining position, so that the FPC 100 is relatively easy to come off. It has become.

  In the connector 10, when the FPC 100 is inserted into the housing 2 from the insertion port 21 in a state where the lever 5 is disposed at the non-preventing position, the FPC 100 is guided along the guide groove 24 provided in the partition wall 23.

  Here, the connector 10 includes a guide portion 1 a of the holding metal fitting 1 that protrudes forward of the insertion port 21 of the housing 2 and can be inserted into the insertion port 21 without being caught by the contact 3 by placing the FPC 100. . The connector 10 can place the tip end portion of the FPC 100 on the placement portion 1 a 1 protruding from the insertion port 21 of the housing 2. In the connector 10, when the FPC 100 is inserted toward the insertion port 21, the FPC 100 is inserted along the height position correction unit 1a2 that is continuously integrated with the placement unit 1a1. Thereby, the connector 10 can guide the front-end | tip part of FPC100 to the insertion port 21 along the guide part 1a.

  The FPC 100 inserted into the connector 10 from the insertion port 21 is inserted between the support portions 31 and 41 of the contacts 3 and 4 and the spring portions 32 and 42. When the FPC 100 is further inserted into the housing 2, the front end portion of the FPC 100 comes into contact with the positioning surface 23 a of the contact 3. Thus, the connector 10 can position the front end portion of the FPC 100 with respect to the contacts 3 and 4.

  When the lever 5 is rotated to a position substantially parallel to the support portions 31, 41 of the contacts 3, 4 with the FPC 100 inserted into the housing 2, the cam portion 51 of the lever 5 The recess 36 is pressed. In the contact 3, the spring part 32 and the connection part 33 are elastically deformed with the connection part 33 as a fulcrum, and the projecting part 32 a of the spring part 32 is displaced toward the support part 31. As a result, in the connector 10, the protruding portion 32 a of the spring portion 32 elastically contacts the conductor pattern 101 provided on the FPC 100. Similarly, in the connector 10, the cam portion 52 of the lever 5 presses the concave portion 46 of the contact 4. In the contact 4, the spring part 42 and the connection part 43 are elastically deformed with the connection part 43 as a fulcrum, and the projecting part 42 a of the spring part 42 is displaced toward the support part 41. As a result, in the connector 10, the protruding portion 42 a of the spring portion 42 comes into elastic contact with the conductor pattern 101 provided on the FPC 100.

  In the connector 10, the protruding portions 31 a and 32 a of the spring portion 32 and the protruding portions 41 a and 42 a of the spring portion 42 are pressed against the FPC 100 when the lever 5 is rotated to the retaining position. The connector 10 sandwiches the FPC 100 between the protruding portion 32 a of the spring portion 32 and the protruding portion 31 a of the support portion 31. In addition, the connector 10 sandwiches the FPC 100 between the protruding portion 42 a of the spring portion 42 and the protruding portion 41 a of the support portion 41. The connector 10 is in a state where the contacts 3 and 4 and the conductor pattern 101 of the FPC 100 are electrically connected by the contact pressure of the contacts 3 and 4.

  On the other hand, when the lever 5 is rotated from the retaining position to the non-preventing position with the FPC 100 connected to the connector 10, the cam portions 51 and 52 press the concave portions 36 and 46 of the contacts 3 and 4. The power to do is weakened. In the contacts 3, 4, the projecting portions 32 a, 42 a of the spring portions 32, 42 are displaced by the spring restoring force of the spring portions 32, 42 and the connection portions 33, 43 and separated from the FPC 100. In the connector 10, the force with which the contacts 3 and 4 hold the FPC 100 becomes weak, and the FPC 100 can be easily pulled out.

  In the connector 10 of this embodiment, when the FPC 100 is inserted from the insertion port 21, the front end portion of the FPC 100 comes into contact with the positioning surface 23 a provided in the housing 2. Here, the connector 10 temporarily holds the FPC 100 by fitting the temporary holding portion 1c of the holding metal fitting 1 with the temporary holding recesses 103 provided at both ends in the width direction on the distal end side of the FPC 100. As a result, the connector 10 is prevented from coming out of the insertion port 21 before the inserted FPC 100 is prevented from coming off by the lever 5. Further, the connector 10 can accurately position the relative position of the FPC 100 with respect to the contacts 3 and 4. That is, the connector 10 can reduce the occurrence of a shift in the contact position where the projecting portions 32a and 42a serving as the contact portions of the spring portions 32 and 42 and the FPC 100 come into contact with each other. In the connector 10, the contacts 3 and 4 are in electrical contact with the FPC 100 at a predetermined position, so that the reliability of electrical connection can be improved.

  In the FPC 100 connected to the housing 10 of the present embodiment, as shown in FIG. 4, the wide portion 102 of the conductor pattern 101 that contacts the contact 3 is compared with the wide portion 102 of the conductor pattern 101 that contacts the contact 4. And it is provided in the front end side of the insertion / extraction direction of FPC100 in FPC100. Further, in the FPC 100, the length dimension of the wide portion 102 of the conductor pattern 101 with which the contact 4 contacts is made longer than the length dimension of the wide portion 102 with which the contact 3 contacts in the insertion / extraction direction of the FPC 100.

DESCRIPTION OF SYMBOLS 1 Holding metal fitting 1a Guide part 1a1 Mounting part 1a2 Height position correction | amendment part 2 Housing 3, 4 Contact 5 Lever 10 Connector 21 Insertion port 31a, 32a, 41a, 42a Projection part (contact part)
34 Terminal part 34a Tip edge part 100 Flexible printed wiring board (FPC)
101 Conductor pattern

Claims (3)

A housing having an insertion slot into which the flexible printed wiring board is inserted; a plurality of contacts having contact portions that can contact a conductor pattern of the flexible printed wiring board inserted into the housing; and the conductor in the housing. A connector comprising a lever that can be raised and lowered with respect to the housing between a position where the contact is pressed and a position where the contact is not pressed in the thickness direction of the flexible printed wiring board so as to press-contact the pattern and the contact portion. There,
A guide portion for placing the flexible printed wiring board and guiding the insertion of the flexible printed wiring board into the insertion port ;
A holding bracket that temporarily holds the flexible printed wiring board inserted into the insertion port and prevents the flexible printed wiring board from coming out of the insertion port at a position where the lever does not press the contact;
The guide portion is forward of the insertion port in the pulling direction, which is a direction in which the flexible printed wiring board is pulled out from the housing , and forward of the terminal portion on the insertion port side of the plurality of contacts in the pulling direction. connector, characterized in that so as to protrude, is provided on the retaining bracket to. The guide portion includes a placement portion on which the flexible printed wiring board can be placed, and a height position correction portion that guides insertion of the flexible printed wiring board from the placement portion into the insertion port. The height position correction unit rises from the height of the mounting portion on the outer bottom surface side of the housing relative to the height position correction unit, and is provided at a tip of the contact on the insertion port side. The connector according to claim 1, wherein the connector has a height substantially equal to a height of the terminal portion electrically connected to the terminal. The guide portion is characterized in that an inclination angle of the height position correction portion with respect to the insertion / extraction direction of the flexible printed wiring board is substantially the same as an inclination angle with respect to the insertion / extraction direction at a tip edge portion of the terminal portion. Item 3. The connector according to item 2.

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