JP2019046810A5 - - Google Patents

Description

connector

  The present invention relates to a connector used in a mobile phone, a notebook computer, a digital camera, etc., and in particular, contacts a connection object of a flexible printed circuit (hereinafter referred to as "FPC") or a flexible flat cable (hereinafter referred to as "FFC"). Relates to a mechanism for pressing the

  Connectors used for mobile phones, CCD cameras, etc. are narrow pitch and ultra thin (so-called light, thin, short and small), and are mainly composed of a housing, contacts, and a slider, and a structure in which FPC or FFC is held between the housing and the slider. It is. Various methods can be considered for holding the FPC or FFC with the housing and the slider, but among them, the structure in which the FPC or FFC is inserted into the housing and then the slider is inserted and the FPC or FFC is pressed against the contact.

The housing is provided with a required number of insertion holes into which the contacts are inserted and an insertion port into which the FPC or FFC is inserted.

  The contact 64 is substantially U-shaped as shown in FIG. 8 and is mainly composed of a contact portion 22 in contact with the FPC 40 or FFC, a connection portion 24 connected to a substrate or the like, and a fixing portion 42 fixed to the housing 62. It is done. The contact 64 is fixed to the housing 62 by press fitting or the like.

  For example, the slider 66 has a substantially wedge shape as shown in FIG. 8, and after inserting the FPC 40 or the FFC into the housing 62 in which the required number of contacts 64 are disposed, the slider 66 is inserted. Such a slider 66 mainly includes a mounting portion 74 (FIG. 7) mounted to the housing 62 and a pressing portion 68 for pressing the FPC 40 or the FFC against the contact portion 22 of the contact 64. Before the FPC 40 or FFC is inserted, the slider 66 is temporarily attached to the housing 62. When the slider 66 is inserted after the FPC 40 or FFC is inserted, as shown in FIG. The pressing portion 68 of the slider 66 is inserted in parallel to the FFC, and the FPC 40 or the FFC is pressed to the contact portion 22 of the contact 64.

  In recent years, this type of connector 60 has been required to have a lower profile. However, in the connector 60 having the above-described structure, six layers (both sides in the thickness direction of the housing 62 as shown in FIG. The thickness of the contact portion 22 of the wall / contact 64 and the thickness of the receiving portion 70, the thickness of the pressing portion 68 of the slider 66, and the thickness of the FPC 40 or the FFC. In view of lowering the height, the receiving portion 70 of the contact 64 is omitted, and the thickness of the pressing portion 68 of the slider 66 of the five layers (thickness direction both sides of the housing 62 and the contact portion 22 of the contact 64) Although the thickness of the FPC 40 or the FFC can be made, there is a problem to be solved that the height can not be further reduced due to the strength and specifications of each part.

  In the connector 60 having the above-described structure, the insertion of the FPC 40 or the FFC and the operation of pressing the contact portion 22 of the contact 64 against the FPC 40 or the FFC are performed only on the fitting opening 18 side of the housing 62. There is also a problem that the more you work, the worse the work efficiency.

  Furthermore, when it is required to narrow the pitch of the connector 60, there is a limit to narrowing the connector if the contacts 64 are inserted from one direction as in the conventional structure.

  The present invention has been made in view of such conventional problems, and the slider is operated to reliably contact the connection object of the FPC or the FFC without damaging the strength or the specification of each part. It is an object of the present invention to provide a connector which can be configured so as to be in pressure contact with each other, which is easy to work, and which can narrow the pitch and reduce the height.

  In order to achieve the above object, the gist configuration of the present invention is as follows.

(1) A connector which is mounted on a substrate and into which a connection object which is a flexible printed circuit (FPC) or a flexible flat cable (FFC) is detachably inserted, and which has a required number of contacts and the connection object An electrically insulating housing having an insertion opening for holding the required number of contacts spaced in the arrangement pitch direction, and the housing on the opposite side of the insertion opening from the insertion opening A connector including: a slider for pressing the contact, wherein the contact is a contact portion located on the insertion port side and in contact with the connection object, a connection portion mounted on the substrate, and a pressing portion pressed by the slider And the contact portion, the connection portion, and the pressing portion are made of the same metal material, and the slider is A first slider attitude in which the pressing portion moves away from the board mounting surface, and a second slider attitude in which the pressing portion moves from the state of the first slider attitude toward the board mounting surface A pressing portion configured to be rotatable between the pressing portions and pressing the pressing portion of the contact in the first slider posture, and a pressing portion facing the pressing portion in the array pitch direction It has a through hole defined by an extending opposing wall and a connecting wall which connects the pressing portion extending in the arranging pitch direction and the opposing wall with the spacing in the arranging pitch direction. The pressing portion is inserted into the through hole in at least the second slider posture among the first slider posture and the second slider posture, and the front in the first slider posture The substrate mounting surface, the portion where the pressing portion is in contact extending in the arrangement pitch direction, the connector, characterized in that it is flat.

(2) The connector according to (1), wherein the portion in contact with the pressing portion extending in the arrangement pitch direction is the contact.

(3) In the first slider posture, when viewed in a cross section orthogonal to the arrangement pitch direction, the tip end portion of the pressing portion of the contact is one of the both outer surfaces of the housing parallel to the substrate mounting surface The connector according to (1), which is located closer to the substrate mounting surface than a virtual plane including the outer surface of the housing located farther from the substrate mounting surface .

(4) In the first slider posture, when viewed in a cross section orthogonal to the arrangement pitch direction, the dimension of the slider along the height direction of the connector is characterized in that the pressing portion is smaller than the opposing wall. The connector according to the above (1).

(5) The connector according to (1), wherein the contact has a protruding portion protruding toward the substrate mounting surface at a tip end portion of the pressing portion.

  According to the connector of the present invention, the slider is located on the opposite side of the housing from the insertion opening, and the contact is a contact part located on the insertion opening and in contact with the connection object, the connection mounted on the substrate Part, and a pressing part pressed by the slider, the contact is an integrally formed article in which the contact part, the connection part and the pressing part are made of the same metal material, and the slider is A first slider attitude in which the pressing portion moves in a direction away from the substrate mounting surface, and a second slider attitude in which the pressing portion moves in a direction approaching the substrate mounting surface from the state of the first slider posture; A pressing portion configured to be rotatable between the pressing portions extending in the arrangement pitch direction for pressing the pressing portion of the contact in the first slider posture; Through-holes defined by the opposing walls extending in the direction of the arranging pitch and the connecting walls connecting the opposing walls in such a manner that the opposing walls are spaced apart in the arranging pitch direction. The pressing portion is inserted into the through hole in at least the second slider posture among the first slider posture and the second slider posture, and the array on the substrate mounting surface side in the first slider posture The portion in contact with the pressing portions extending in the pitch direction is flat. By this, the following excellent effects can be obtained.

  By rotating the slider located at the position opposite to the insertion port of the housing, the contact portion of the contact located on the insertion port side of the housing is brought into a pressing contact when the connection object is inserted. Since the slider is not present on the insertion port side of the housing, the connector can be lowered in height by the thickness of the slider.

  After the connection object is inserted into the insertion opening of the housing, the pressing portion extending in the arrangement pitch direction moves the pressing portion of the contact away from the substrate as the slider rotates, and the connection object is inserted. In this case, since the contact portion is configured to press the connection object, the contact portion of the contact and the connection object can be reliably brought into contact with each other.

  The slider includes a pressing portion extending in the arrangement pitch direction for pressing the pressing portion of the contact, an opposing wall facing the pressing portion and extending in the arrangement pitch direction, and a pressing portion and an opposing wall extending in the arrangement pitch direction The slider has a through hole partitioned and formed by the connection wall which connects in a state of spacing in the arrangement pitch direction, so that the slider is strong, can be reliably rotated, and deformation hardly occurs. Become.

(A) It is a perspective view of the connector of the present invention seen from the insertion mouth side of a housing in the state where a slider is opened (state in a 2nd slider posture). (B) It is a perspective view of the connector shown to FIG. 1 (A) seen from the side in which a slider is located of the housing in the state where the slider was opened. (A) It is the perspective view of the connector of this invention which cut | disconnected in the extension direction of the contact in the part of a certain contact of the state which the slider opened. (B) It is the perspective view of the connector of this invention which cut | disconnected in the extension direction of a contact in the part of a certain contact in the state which the slider closed (state which exists in a 1st slider attitude) after FPC is inserted. It is a perspective view of the slider extracted from the connector of the present invention. (A) It is a perspective view of the contact with two contact parts extracted from the connector of this invention. (B) It is a perspective view of another contact with one contact part. FIG. 7 is a perspective view of another connector of the present invention. (A) It is the perspective view of the other connector of this invention which was cut in the extension direction of the 2nd contact in the part of a certain 2nd contact in the state (the state in the 2nd slider posture) where the slider opened. (B) A perspective view of another connector of the present invention cut in the extension direction of the second contact at a portion of the second contact in a state where the FPC is inserted and the slider is closed (state in the first slider posture) It is. It is a perspective view of the conventional connector seen from the fitting mouth (insertion mouth) side of the housing before FPC is inserted. (A) It is sectional drawing of the conventional connector cut in the extension direction of a contact in the part of a certain contact before FPC is inserted. (B) It is sectional drawing of the conventional connector which cut | disconnected the extension direction of the contact in the part of a certain contact in the state in which FPC and the slider were inserted.

One embodiment of the connector of the present invention will be described based on FIGS. 1 to 4.
FIGS. 1 (A) and 1 (B) show the connector of the present invention, and FIG. 1 (A) is from the insertion port side of the housing in the state where the slider is open (state in the second slider posture). When viewed, FIG. 1 (B) shows the case where the slider is open, as viewed from the side opposite to the insertion port, where the slider is located, and FIGS. 2 (A) and 2 (B) are diagrams FIG. 2 (A) is a perspective view of the connector shown in FIG. 1 (A) when it is cut at a portion of a contact (first contact), and FIG. B) shows a state in which the slider is closed (a state in a first slider posture) after the connection object (FPC) is inserted, and FIG. 3 is a perspective view of the slider. 4B is a perspective view of a contact having one contact portion, and FIG. Of a perspective view of another contact having a contact portion.

  The connector 10 according to the embodiment of the present invention mainly includes a housing 12, a contact 14 and a slider 16, and is surface mounted on a substrate (not shown). When the connection object 40 of the flexible printed circuit (FPC) or the flexible flat cable (FFC) is inserted, the connection object 40 in the connector 10 is substantially parallel to the substrate mounting surface.

The components of the connector of the present invention will be described based on the drawings.
First, the contact which is the point of the present invention will be described. The contact includes a contact portion contacting the connection object 40 of the FPC or the FFC, a connection portion surface-mounted on a substrate (not shown), and a pressing portion pressed by the slider 16, and the contact portion The connecting portion and the pressing portion are integrally formed of the same metal material. The contact portion is located on the insertion port side, the connection portion is located on the insertion port side, or the side opposite to the insertion port side, on which the slider is located, and the pressing portion is located on the side where the slider is located Do. This contact is made of metal and is produced by means of pressing in accordance with the known art. As the material of the contact, since springiness and conductivity etc. are required, brass, beryllium copper, phosphor bronze and the like can be mentioned.

The connector 10 of the embodiment includes a required number of contacts, and the required number of contacts are configured to include the first contacts 14 or configured to include the first contacts 14 and the second contacts 142, as shown in FIG. In the connector 10 shown in FIG. 4, all the required number of contacts are constituted by the first contacts 14 shown in FIG .
The first contact 14 is located on the side of the insertion opening 18 of the housing 12 and is located on the opposite side of the FPC or FFC connection target (FPC in FIG. 2B) 40 to the substrate mounting surface (not shown). Between the first contact portion 22a and the first connection portion 24a, the first connection portion 24a being able to contact the surface 40a to be formed, the first connection portion 24a located on the side where the slider 16 is located and surface mounted on the substrate The first connecting portion 34a located on the side opposite to the insertion port 18, the first pressing portion 20a located on the side opposite to the side where the slider is located and pressed by the slider 16, and the opposite side to the first connecting portion 24a And the first connecting portion 22a, the first connecting portion 24a, the first connecting portion 34a, the first pressing portion 20a, and the first extending portion 22e (see FIG. 4). One-piece extension 22e is integrally formed of the same metal material , And the has a generally inverted H-shape as shown in FIG. 4 (A). The first contact 14 has a fixed portion 42a that fixed to the housing 12 (see FIG. 4). In the first contact 14, the first contact portion 22a, the first connection portion 34a, and the first connection portion 24a are arranged in a substantially crank-shaped positional relationship. The first contact portion 22a has a convex portion so as to be easily in contact with the connection object 40 of the FPC or FFC, and in the present embodiment, the first connection portion 24a is a surface mounting type (SMT as shown in FIG. 1). ), But may be dip type. The first extending portion 22e has a second contact portion 22c, that is, two contact portions 22a and 22c are provided to hold the connection object 40 of the FPC or FFC. By providing the contact portions 22a and 22c on both sides in the direction perpendicular to the insertion direction of the connection object 40 of the FPC or FFC, the connection object 40 of the FPC or FFC is held between the two contact portions 22a and 22c. As a result, the connection object 40 of the FPC or FFC can be reliably contacted.

  The first connecting portion 34a and the first pressing portion 20a operate in the following manner so that the first contact 14 comes into pressure contact with the connection object 40 when the connection object 40 is inserted. Is a portion of the first contact 14 indicating That is, after the connection object 40 is inserted into the insertion port 18 of the housing 12, the pressing portion 36 acts on the first pressing portion 20 a of the first contact 14 by the rotation of the slider 16, and the first pressing portion 20a is pushed up in a direction away from the substrate mounting surface by the pressing portion 36, whereby the first contact portion 22a presses and contacts the connection object 40. The sizes and shapes of the first connecting portion 34 a and the first pressing portion 20 a are appropriately designed in order to indicate such an operation mode.

Further, it is desirable that the first contact 14 have a projecting portion 26 at the tip end portion of the first pressing portion 20 a which is a portion on which the pressing portion 36 of the slider 16 acts. Thus, when the pressing force is applied to the first pressing portion 20 a of the first contact 14 by the pressing portion 36 by the rotation of the slider 16, the repulsive force against the rotation of the slider 16 is strong. It is desirable to prevent the central portion in the arrangement pitch direction from bulging in the direction of the arrow "c" in FIG. 1 (B). The size of the projecting portion 26 may be any size as long as it can play such a role, and is appropriately designed to the extent that the pressing portion 36 of the slider 16 is caught . Definitive to first slider position described below, when viewed in cross section perpendicular to the arrangement pitch direction, the leading end portion of the first pressure receiving portion 20a of the first contact 14, out of the two outer surfaces of the parallel housing 12 to the substrate mounting surface It is preferable to be configured to be located closer to the substrate mounting surface than a virtual plane including the outer surface of the housing 12 located farther from the substrate mounting surface .

  Another first contact will be described based on FIG. 4 (B). Here, only differences from the above-described first contact 14 will be described. The other first contacts 141 have the first extension 22e removed, and have a substantially reverse h-shape.

Next, the slider 16 which is another point of the present invention will be described. The slider 16 is an electrically insulating plastic and is manufactured by injection molding according to a known technique. The material is appropriately selected in consideration of dimensional stability, processability, cost and the like, but is generally polybutylene terephthalate. Examples include (PBT), polyamide (66 PA, 46 PA), liquid crystal polymer (LCP), polycarbonate (PC), and synthetic materials thereof. The slider 16 mainly includes a pressing portion 36 for pressing the first pressing portion 20 a of the first contact 14 and a required number of through holes 30 extending in the thickness direction of the slider 16. The through hole 30 includes a pressing portion 36 extending in the arrangement pitch direction for pressing the first pressing portion 20 a of the first contact 14, an opposing wall 35 opposed to the pressing portion 36 and extending in the arrangement pitch direction, and The pressing portions 36 extending in the pitch direction and the connecting walls 37 connecting the opposing walls 35 at intervals in the arranging pitch direction are defined. The first pressing portion 20a is inserted into the through hole 30 at least in the second slider posture among the first slider posture and the second slider posture, and extends in the arrangement pitch direction on the substrate mounting surface side in the first slider posture The portion in contact with the pressing portion 36 is flat. The portion in contact with the pressing portions 36 extending in the arrangement pitch direction is, for example, the first contact 14. Definitive to first slider position, as viewed in cross section perpendicular to the arrangement pitch direction, the leading end portion of the first pressure receiving portion 20a of the first contact 14, out of the two outer surfaces of the parallel housing 12 to the substrate mounting surface, the substrate mounting It is desirable to be located closer to the substrate mounting surface than a virtual plane including the outer surface of the housing 12 located far from the surface . Further, when the first pressing portion 20a of the first contact 14 is pressed on both sides of the slider 16 in the longitudinal direction (arrangement pitch direction of the contacts), the operation portion of the slider 16 is lifted in the height direction (the upper side in the drawing). A lock (not shown) may be provided to engage the housing 12 to prevent it. The shape, size, etc. of the lock portion may be any shape as long as it can be engaged with the housing 12, and is appropriately designed in consideration of the above-mentioned role, size, strength, etc. of the connector.

The slider 16 is configured to be rotatable between the first slider posture and the second slider posture, and the pressing portion 36 is a portion that presses the first pressing portion 20 a of the first contact 14 in the first slider posture. It is desirable to use an elongated shape as its shape, and in this embodiment, it has an elliptical shape. By forming the elliptical shape in this manner, as shown in FIG. 2A, the slider 16 is rotated in the direction of the arrow "i" to change the size (size) of the pressing portion 36, thereby changing the first contact 14 The first pressing portion 20 a is lifted (moved in a direction away from the substrate mounting surface), and the first contact portion 22 a of the first contact 14 presses and contacts the connection object 40. As the shape of the pressing portion 36, the first pressing portion 20e of the first contact 14 is pushed away from the substrate mounting surface due to the difference in size (dimensions) such as the major axis and the minor axis as the slider 16 rotates. For example, it may be anything. It is desirable that the dimension of the slider 16 along the height direction of the connector 10 in the first slider posture be smaller than that of the opposing wall 35 in the cross section orthogonal to the arrangement pitch direction .

  In addition, when the slider 16 is rotated, the repulsive force to the rotation of the slider 16 is strong, and the central portion of the slider 16 in the arrangement pitch direction is prevented from expanding in the direction of the arrow “c” in FIG. For this purpose, through holes 30 with which the protrusions 26 of the first contact 14 engage are provided separately. By providing the through holes 30 separately, it is possible to prevent the strength increase of the slider 16 and the deformation at the time of rotation.

  Finally, the housing 12 will be described. The housing 12 is an electrically insulating plastic and is manufactured by injection molding according to a known technique. The material is appropriately selected in consideration of dimensional stability, processability, cost and the like, but is generally polybutylene terephthalate. Examples include (PBT), polyamide (66 PA, 46 PA), liquid crystal polymer (LCP), polycarbonate (PC), and synthetic materials thereof. The housing 12 is provided with an insertion groove 38 in which a required number of first contacts 14 and 141 are mounted, and is fixed by press fitting, hooking (lancing), welding or the like.

  Next, a connector 101 according to another embodiment of the present invention will be described based on FIGS. 5 to 6. The main components are the same as those described above, and include a housing 121, first and second contacts 14 and 142, and a slider 161. The feature of this embodiment is that the two types of first and second contacts 14 and 142 are arranged in a staggered arrangement by changing the insertion direction into the housing 121, and are arranged by arranging a staggered arrangement by changing the insertion direction. It corresponds to narrowing the pitch and lowering the pitch. The housing 121 and the slider 161 are the same as those described above, and the first contact 14 is the same as that shown in FIG. FIG. 5 is a perspective view of the connector of the other embodiment, and FIG. 6 (A) is a portion of a second contact 142 at a portion of a second contact 142 in a state where the slider 161 is opened (second slider posture). FIG. 6B is a perspective view of the connector of the present invention cut in the extending direction, and FIG. 6B is a portion of the second contact 142 in a state (first slider posture) in which the connection object 40 is inserted and the slider is closed. FIG. 14 is a perspective view of the connector of the present invention cut in the direction in which the second contact 142 extends.

  The second contact 142 is also made of metal and is manufactured by press processing of a known technology. The material is the same as that of the first contact 14.

  Similarly to the first contact 14, the second contact 142 is of two types of substantially reverse h shape and substantially H shape, and the substantially reverse h shape is mainly located on the insertion port 18 side of the housing 121. A third contact portion 22b capable of contacting the surface 40a of the connection object 40 opposite to the substrate mounting surface, a second connection portion 24b connected to the substrate, and a fixation fixed to the housing 121. Extending from a portion (not shown), a second connection portion 34b provided between the third contact portion 22b and the second connection portion 24b, and a portion of the third contact portion 22b on the second connection portion 34b side. The second pressing portion 20b is provided. The third contact portion 22b, the second connection portion 34b, and the second connection portion 24b are disposed in a substantially U-shaped positional relationship. The substantially H-shaped member is provided with a second extending portion 44 extended from the portion on the second connecting portion 34 b side of the second connecting portion 24 b to the side where the slider 161 is positioned. The third contact portion 22 b has a convex shape so as to easily contact the connection object 40. In the present embodiment, the second connection portion 24b is of surface mount type (SMT) as shown in FIG. 5, but may be of dip type. In the embodiment of FIG. 6, the second connection portion 24b of the second contact 142 and the second connection portion 34b are in a positional relationship facing the third contact portion 22b, and the connection target object 40 on the substrate mounting surface side The case where the 4th contact part 22d which can contact the surface located in is provided is shown.

  The second connecting portion 34 and the second pressing portion 20b rotate the slider 161 to insert the pressing portion after the connection object 40 is inserted, as in the operation mode of the first contact 14 by the rotation of the slider 16. When 36 rotates, the second pressing portion 20b is pushed up in a direction away from the substrate mounting surface by the pressing portion 36, whereby the third contact portion 22b is in pressure contact with the connection object 40. The sizes and shapes of the second connecting portion 34 b and the second pressing portion 20 b are appropriately designed in order to indicate such an operation mode.

  Further, the protrusion 26 is provided at the tip of the second pressing portion 20 of the second contact 142, and when the pressing portion 36 of the slider 161 is rotated, the repulsion force against the rotation of the slider 161 is strong. It is desirable to prevent the central portion in the pitch direction from expanding in the direction of the arrow “c” in FIG. 6B, but considering the strength of the slider 161 due to the narrowing of the pitch, two types of contacts 14 , 142 are sufficient if provided at one of the contacts 14. The size of the projecting portion 26 may be any size as long as it can play such a role, and is appropriately designed to the extent that the pressing portion 36 of the slider 161 is caught.

  As apparent from the above description, according to the connector of the embodiment of the present invention, the following excellent effects can be obtained.

  (1) When the connection object 40 is inserted by rotating the sliders 16, 161, the first and third contact portions 22a, 22b of the first and second contacts 14, 141, 142 are connected object The conventional slider 66 shown in FIG. 7 and FIG. 8 is not inserted into the insertion port 18 of the housing 12 or 121, and the connector 10 or 101 has a thickness corresponding to the thickness of the slider 66. It became possible to reduce the height.

  (2) By preparing two types of first and second contacts 14 and 142, inserting the first contact 14 from the side opposite to the insertion port 18, and inserting the second contact 142 from the insertion port 18 side, It can be easily narrowed and lowered.

  (3) After the connection object 40 is inserted into the insertion opening 18 of the housing 12, the first pressing portion 20 a is pushed up by the pressing portion 36 when the slider 16 is rotated to rotate the pressing portion 36. Since the first contact portion 22 a of the first contact 14 is in pressure contact with the connection object 40, the first contact portion 22 a of the first contact 14 and the connection object 40 can be reliably connected.

  (4) The same applies to the case where the second contact 142 is provided, and after the connection object 40 is inserted into the insertion opening 18 of the housing 121, when the slider 161 is rotated to rotate the pressing portion 36, Since the first and second contact portions 22a and 22b of the first and second contacts 14 and 142 are pressed against the connection object 40 by the first and second pressing portions 20a and 20b being pushed up by the pressing portion 36. Thus, the connection object 40 can be reliably connected to the first and third contact portions 22a and 22b of the first and second contacts 14 and 142.

  (5) In the case where the projecting portion 26 is provided at the tip of the first pressing portion 20 a of the first contact 14 or the first and second pressing portions 20 a and 20 b of the first and second contacts 14 and 142, the slider 16 , 161 even when the repulsive force against the rotation of the sliders 16, 161 is strong when the pressing portions 36 of 161 are rotated to push up the first and second pressing portions 20a, 20b of the first and second contacts 14, 142. It is possible to prevent the central portion in the arrangement pitch direction of 16, 16 from bulging in the direction of the arrow "c".

  (6) When the shape of the pressing portion 36 extending in the arrangement pitch direction of the sliders 16 and 161 is elongated (having the major axis and the minor axis), when the sliders 16 and 161 are rotated, it is ensured When the connection object 40 is inserted by pushing the first and second pressing portions 20a and 20b of the first and second contacts 14, 141 and 142 upward, the first and third contact portions 22a and 22b The connection object 40 can be easily pressed and brought into contact.

  (7) The pressing portions 36 extending in the arrangement pitch direction for pressing the first pressing portions 20 a of the first contacts 14 to the sliders 16 and 161, and the opposing walls facing the pressing portions 36 and extending in the arrangement pitch direction Since the through holes 30 defined by 35, and the pressing portions 36 extending in the arrangement pitch direction and the connecting walls 37 connecting the opposing walls 35 at intervals in the arrangement pitch direction are separately provided, The sliders 16, 161 can be turned firmly and reliably, and do not deform.

  (8) A second contact in which the first extending portion 22e is extended from the end on the substrate mounting surface side of the first connecting portion 34a of the first contact 14 and the first extending portion 22e also contacts the connection object 40 When the portion 22 c is provided, the first and second contact portions 22 a and 22 c are provided on both sides in the direction perpendicular to the insertion direction of the connection object 40, and the connection object 40 is inserted. Since the connection object 40 is held by the first and second contact portions 22a and 22c, the connection object 40 can be reliably contacted.

  (9) When the third contact portion 22d contacting the connection object 40 is provided also between the second connection portion 34b of the second contact 142 and the second connection portion 24b, the insertion direction of the connection object 40 On the other hand, the third and fourth contact portions 22b and 22d are provided on both sides in the perpendicular direction, and when the connection object 40 is inserted, the third and fourth contact portions 22b and 22d are connected. , So that the connection object 40 can be reliably contacted.

  (10) Since the slider is disposed on the opposite side to the insertion port 18, the downsizing of the connectors 10 and 101 does not affect the workability, and the work can be easily performed.

10, 60, 101 connectors 12, 121, 62 housings 14, 141 first contacts 142 second contacts 16, 161, 66 sliders 18 insertion openings 20a, 20b first and second pressing portions 22a to 22d first to fourth Contact portion 22e First extension portion 24a, 24b First, second connection portion 26 Protrusive portion 28 Shaft portion 30 Insertion hole 34a, 34b First, second connection portion 35 Opposite wall 36, 68 Press portion 37 Connection wall 38 Insertion Groove 40 Connection object 42, 42a Fixing portion 44 Second extension portion 70 Receiving portion 72 Slit 74 Mounting portion 76 Fixing tool

Claims (5)

A connector which is mounted on a substrate and into which a connection target, which is a flexible printed circuit (FPC) or a flexible flat cable (FFC), is detachably inserted.
With the required number of contacts,
An electrically insulating housing having an insertion port for the connection object and holding the required number of contacts spaced in the arrangement pitch direction;
A slider located on the opposite side of the housing from the insertion opening and pressing the contact;
In the connector provided with
The contact has a contact portion located on the insertion port side and in contact with the connection object, a connection portion mounted on the substrate, and a pressing portion pressed by the slider, and the contact portion, the connection And the pressing portion are integrally formed of the same metal material,
The slider is
A first slider attitude in which the pressing portion moves in a direction away from the board mounting surface; and a second slider attitude in which the pressing portion moves in a direction approaching the board mounting surface from the state of the first slider attitude , Configured to be rotatable between
A pressing part extending in the arrangement pitch direction for pressing the pressing part of the contact in the first slider posture, an opposing wall facing the pressing part and extending in the arrangement pitch direction, and the arrangement pitch A through hole defined by the pressing portion extending in a direction and a connecting wall connecting the opposing walls at intervals in the arrangement pitch direction,
The pressing portion is inserted into the through hole in at least the second slider posture among the first slider posture and the second slider posture.
A connector characterized in that in the first slider posture, a portion in contact with the pressing portion extending in the arrangement pitch direction on the substrate mounting surface side is flat.   The connector according to claim 1, wherein a portion in contact with the pressing portion extending in the arrangement pitch direction is the contact. When viewed in a cross section orthogonal to the arrangement pitch direction in the first slider posture, the tip portion of the pressing portion of the contact is the substrate mounting surface of the both outer surfaces of the housing parallel to the substrate mounting surface. The connector according to claim 1, wherein the connector is located on the substrate mounting surface side relative to a virtual plane including the outer surface of the housing located far from the substrate. The dimension of the slider along the height direction of the connector is smaller than the opposing wall in the dimension of the slider along the height direction of the connector when viewed in a cross section orthogonal to the arrangement pitch direction in the first slider posture. The connector according to 1.   The connector according to claim 1, wherein the contact has a protruding portion protruding toward the substrate mounting surface at a tip end portion of the pressing portion.