JP6161777B6 - connector - Google Patents

Abstract

The present invention is capable of reliably pressing an FPC 40 or FFC against a contact portion 22 of a contact 14 with a slider 16 without impairing the strength, specifications, etc. of each part, improving workability, and narrowing the pitch. It is intended to provide a connector that can be lowered or lowered.
The lowering of the height of the object is to provide an elastic part and a fulcrum part between a contact part and a connection part of a contact, and to contact the contact part, the elastic part and the fulcrum part. The connecting portion 24 is arranged in a substantially crank shape, and a pressing portion 20 extending from the elastic portion 34 is provided at a position facing the connecting portion 24, and a pressing portion 36 continuously provided in the longitudinal direction on the slider 16 is provided. This can be achieved by mounting the slider 16 on the housing 12 so that the pressing portion 36 is rotatable between the connection portion 22 of the contact 14 and the pressing portion 20.
[Selection] Figure 2

Description

The present invention relates to a connector used in a mobile phone, a notebook computer, a digital camera, and the like, and particularly contacts a connection object of a flexible printed circuit board (hereinafter referred to as “FPC”) or a flexible flat cable (hereinafter referred to as “FFC”). It is related with the mechanism which presses.

  A connector used for a cellular phone, a CCD camera, etc. is a narrow pitch and extremely thin (so-called light thin short), and is mainly composed of a housing, a contact, and a slider, and the housing and the slider sandwich the FPC or FFC. It is. There are various methods for holding the FPC or FFC between the housing and the slider. However, there are many methods in which the slider is inserted after the FPC or FFC is inserted into the housing and the FPC or FFC is pressed against the contact.

  The housing is provided with a required number of insertion holes into which contacts are inserted and a fitting port into which an 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 that contacts the FPC 40 or FFC, a connection portion 24 connected to a substrate or the like, and a fixed portion 42 fixed to the housing 62. Has been. 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 FFC into the housing 62 in which the required number of contacts 64 are arranged, the slider 66 is inserted. The slider 66 includes a mounting portion 74 (FIG. 7) that is mainly mounted on the housing 62 and a pressing portion 68 that presses the FPC 40 or 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, the FPC 40 or FPC is inserted as shown in FIG. The pressing portion 68 of the slider 66 is inserted in parallel with the FFC, and the FPC 40 or FFC is pressed against the contact portion 22 of the contact 64.

  In recent years, this type of connector 60 has been increasingly required to have a lower profile, but the connector 60 having the above-described structure has 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 contact 64 and the receiving portion 70, the thickness of the pressing portion 68 of the slider 66, and the thickness of the FPC 40 or FFC). Considering the low profile, the receiving part 70 of the contact 64 is omitted, and five layers (the walls on both sides in the thickness direction of the housing 62, the thickness of the contact part 22 of the contact 64, the thickness of the pressing part 68 of the slider 66, The thickness of the FPC 40 or the FFC) can be made, but there is a problem to be solved such that the height cannot be lowered any more due to the strength and specifications of each part.

Further, in the connector 60 having the structure as described above, the FPC 40 or FFC is inserted and the contact portion 22 of the contact 64 is pressed against the FPC 40 or FFC only on the fitting port 18 side of the housing 62, so the connector is small. there is also a problem that the workability was Tsu had a bad more you of.

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

The present invention has been made in view of such conventional problems, without impairing the strength or specifications of each part, by operating the slider over FP C or reliably to connect object FFC it can the contact portion of the contactor bets is configured to press contact, workability is good, is to St. provide narrowing or low profile position of possible connector pitch.

In order to achieve the above object , the gist of the present invention is as follows.
(1) A connector that is surface-mounted on a substrate and into which a connection object of a flexible printed circuit board (FPC) or a flexible flat cable (FFC) is inserted from a direction substantially parallel to the substrate mounting surface . contact portion for contacting a, and a required number of contacts each having a connection portion to be surface-mounted on the substrate, have a insertion port for the connection object is inserted, the contact of the required number, spaced An electrical insulating housing that is arranged and held in a state, and a connector that is mounted at a position opposite to the insertion port of the housing and that presses the contact , and each contact is connected to the insertion port side Further includes a pressing portion that is positioned on the opposite slider mounting side and is pressed by the slider, the contact portion, the connection portion, and the pressing portion. And the slider is formed integrally with the same metal material, and the slider has a pressing portion having a cross-sectional shape with different dimensions such as long and short, which are connected in the arrangement pitch direction of the required number of contacts, and the pressing portion. And a required number of independent through-holes extending in the thickness direction of the slider, defined by an opposing wall located opposite to each other, and a connecting wall connecting the pressing portion and the opposing wall, From the position of the first slider that takes a posture substantially perpendicular to the substrate mounting surface in a state where the tip side portion of the pressing portion of the contact is located inside the through hole or outside that has passed through the through hole, In the state where the tip side portion of the pressing portion of the contact is located between the connecting walls, the pressing portion extends over a moving range to a second slider position taking a posture substantially parallel to the substrate mounting surface. The contact is configured to be able to rotate forward and backward without being disengaged outward from the tip of the pressing portion of the contact, and when the connection object is inserted and the slider is rotated forward over the moving range, the pressing The pressing portion is rotated in such a manner that a portion of the portion along the longer cross-sectional dimension rises with respect to the substrate mounting surface, and at least the pressing portion of the contact is pressed, so that at least the pressing portion is The contact portion is configured to be in press contact with the connection object as the distal end side of the receiving portion is moved away from the substrate, and the press portion contacts the contact in the moving range. A connector characterized in that at least a part is formed by a smooth convex curved surface .
(2) The connector according to (1), wherein the longer cross-sectional dimension of the pressing portion is smaller than the thickness dimension of the slider.
(3) The front end side portion of the pressing portion of the contact is in the thickness region of the housing according to the above (1) or (2) in a posture in which the slider is in the second slider position. connector.
(4) The contact is a first contact portion that is the contact portion that is located on the insertion port side and contacts the connection object, and the pressing portion that is located on the slider mounting side and is pressed by the slider. A first actuating piece having a first pressing part and extending substantially linearly as a whole; a first connecting part which is located on the slider mounting side and is surface-mounted on the substrate; and the insertion A first reference piece having a first extending portion located on the mouth side and extending substantially linearly as a whole at a position closer to the substrate than the first working piece, and one end of the first working piece The other end of the first reference piece between the first extending portion and the first connecting portion is connected to a portion located between the first contact portion and the first pressing portion. A first connecting piece connected to a portion located, the first operating piece and the first reference The connector according to (1), (2), or (3), including a first contact that is disposed substantially parallel to the substrate mounting surface in a state of being integrally connected by the first connecting piece. .
(5) The contact is a second contact portion that is the contact portion that is located on the insertion port side and contacts the connection object, and the pressing portion that is located on the slider mounting side and is pressed by the slider. A second operating piece having a second pressing portion and extending substantially linearly as a whole; a second connecting portion which is the connecting portion located on the insertion port side and surface-mounted on the substrate; and the slider A second reference piece having a second extending portion located on the mounting side and extending substantially linearly as a whole at a position closer to the substrate than the second working piece, and one end of the second working piece The other end of the second reference piece is between the second connecting portion and the second extending portion, and is connected to a portion located between the second contact portion and the second pressing portion. A second connecting piece connected to the position portion, the second operating piece and the second reference piece Both the in a state of being integrally connected by a second connecting piece, the includes a second contact formed by substantially parallel with the substrate mounting surface (1), The connector according to (2) or (3).
(6) The contact is a first contact portion that is the contact portion that is located on the insertion port side and is in contact with the connection object, and the pressing portion that is located on the slider mounting side and is pressed by the slider. A first actuating piece having a first pressing part and extending substantially linearly as a whole; a first connecting part which is located on the slider mounting side and is surface-mounted on the substrate; and the insertion A first reference piece having a first extending portion located on the mouth side and extending substantially linearly as a whole at a position closer to the substrate than the first working piece, and one end of the first working piece The other end of the first reference piece between the first extending portion and the first connecting portion is connected to a portion located between the first contact portion and the first pressing portion. A first connecting piece connected to a portion located, the first operating piece and the first reference Are both integrally connected by the first connecting piece, the first contact disposed substantially parallel to the substrate mounting surface, and the contact located on the insertion port side and in contact with the connection object A second contact portion that is a portion, and a second pressing portion that is positioned on the slider mounting side and that is the pressing portion that is pressed by the slider, and extends substantially linearly as a whole, It has a second connection part which is the connection part located on the insertion port side and is surface-mounted on the substrate, and a second extension part located on the slider mounting side, and the substrate is more than the second working piece. The second reference piece that extends substantially linearly as a whole and one end of the second reference piece are connected to a portion of the second operating piece located between the second contact portion and the second pressing portion. , The other end of the second reference piece, the second connection portion and the second A second connecting piece connected to a portion located between the installation parts, and the second operating piece and the second reference piece are both integrally connected by the second connecting piece, The first contact and the second contact are arranged in a staggered manner by alternately changing the direction of insertion into the housing in the arrangement pitch direction. The connector according to (1), (2) or (3).

According to the connector of the present invention, each contact further includes a pressing portion that is positioned on the slider mounting side opposite to the insertion port side and is pressed by the slider, and the contact portion, the connection portion, and the pressing portion include: The slider is formed integrally from the same metal material, and the slider is positioned in opposition to the pressing portion having a cross-sectional shape with different dimensions such as long and short, which are connected in the arrangement pitch direction of the required number of contacts. The opposing wall and the connecting portion that connects the pressing portion and the opposing wall have a required number of independent through holes extending in the thickness direction of the slider, and the tip side portion of the contact receiving portion of the contact is From the first slider position, which is positioned substantially perpendicular to the board mounting surface in a state of being located inside the through hole or outside the through hole, the tip side portion of the contact pressing portion is located between the connecting walls. In a state The pressing part is configured to be able to rotate forward and backward without moving outward from the tip of the contact pressing part over the range of movement to the position of the second slider that takes a posture that is substantially parallel to the board mounting surface. When the slider is rotated forward over the moving range with the object inserted, the pressing part rotates in such a manner that the part of the pressing part along the longer cross-sectional dimension rises with respect to the board mounting surface. The contact portion is configured to be pressed and contacted with the connection object in accordance with at least the pressing portion of the contact being pressed and moving at least the tip side of the pressing portion in a direction away from the substrate. In the moving range, at least a part that contacts the contact is formed by a smooth convex curved surface, and the following excellent effects can be obtained .

(1) Since the slider mounted on the side of the housing opposite to the insertion port is rotated, the contact portion of the contact located on the insertion port side of the housing is pressed against the connection object. As a result of the absence of the slider on the insertion opening side of the housing, it is possible to reduce the height of the connector by the thickness of the slider.

(2) After the connection object is inserted into the insertion slot of the housing, at least the pressing portion of the contact is pressed with the rotation of the slider, and at least the tip side of the pressing portion moves in a direction away from the substrate. Accordingly, the contact portion is configured to be in press contact with the connection object, so that the contact portion of the contact and the connection object can be reliably electrically connected.

(3) When the shape of the pressing portion of the slider is changed to a cross-sectional shape with different dimensions such as long and short, and the slider is normally rotated in a state where the connection object is inserted, the longer cross-sectional dimension portion of the pressing portion becomes the substrate. The contact portion can be easily brought into contact with the connection object by rotating the pressing portion in such a manner that it rises with respect to the mounting surface and reliably pressing the pressing portion of the contact.

(4) The slider has a pressing portion having different cross-sectional shapes such as long and short, which are connected in the arrangement pitch direction of the required number of contacts, an opposing wall positioned opposite the pressing portion, the pressing portion and the opposing portion. The slider has a required number of independent through-holes that are partitioned by a connecting wall that connects the walls and extends in the thickness direction of the slider, so that the slider is strong and can rotate reliably, and , Deformation is less likely to occur.

( 5 ) The contact is composed of a first contact and a second contact which are two kinds of contacts, and the first contact and the second contact are arranged in a staggered manner by alternately changing the insertion direction into the housing in the arrangement pitch direction. As a result, the arrangement pitch between the contacts can be reduced.

(A) It is a perspective view of the connector of this invention seen from the insertion port side of the housing in the state which the slider opened (the state which exists in a 1st slider position) . FIG. 2B is a perspective view of the connector shown in FIG. 1A viewed from the slider mounting side of the housing with the slider opened. (A) It is a perspective view of the connector of this invention cut | disconnected in the extension direction of a contact in the part of a certain contact in the state which the slider opened. (B) It is the perspective view of the connector of this invention cut | disconnected in the contact extension direction in the part of a certain contact in the state which closed the slider ( state in a 2nd slider position) after FPC insertion. It is a perspective view of the slider extracted from the connector of the present invention . It is a perspective view of the contact extracted only from the connector of this invention . It is a perspective view of the other connector of this invention . (A) a state in which the slider is in the open (the state in the first slider position), the portion of a second contact, a perspective view of another connector of the present invention taken along the extending direction of the second contact. (B) a state in which the FPC slider is inserted is closed (state in the second slider position), the portion of a second contact, perspective of another connector of the present invention taken along the extending direction of the second contact FIG. It is a perspective view of the conventional connector seen from the fitting port (insertion port) side of the housing before FPC is inserted. (A) It is sectional drawing of the conventional connector cut | disconnected in the contact extension direction in the part of a certain contact before FPC is inserted. (B) It is sectional drawing of the conventional connector cut | disconnected in the extension direction of a contact in the part of a certain contact in the state in which FPC and the slider were inserted.

An embodiment of the connector of the present invention will be described with reference to FIGS.
FIGS. 1A and 1B show the connector of the present invention, and FIG. 1A shows the housing from the insertion port side in a state where the slider is open (in the first slider position). When viewed, FIG. 1 (B) shows the case when viewed from the slider mounting side of the housing with the slider open , and FIGS. 2 (A) and 2 (B) show the connector shown in FIG. 1 (A). a perspective view of a cutaway of the portion of a contact (first contact), 2 (a) is a state where the slider is opened, FIG. 2 (B) after the connection object (FPC) is inserted The slider is shown in a closed state ( a state at the second slider position), and FIG. 3 is a perspective view of the slider. FIG. 4 is a perspective view of the contact.

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

The components of the connector of the present invention will be described with reference to the drawings.
First, the contact 14 which is the point of the present invention will be described. The contact 14 has a contact portion that contacts the FPC or FFC connection object 40, a connection portion that is surface-mounted on a substrate (not shown), and a slider mounting side opposite to the insertion port 18 side of the housing 12. The contact portion, the contact portion, and the press portion are integrally formed from the same metal material. This contact is made of metal and is manufactured by a known press working. Since the material of the contact 14 is required to be springy or conductive, examples thereof include brass, beryllium copper, and phosphor bronze.

The connector 10 of the present invention includes a required number of contacts 14, and the required number of contacts 14 includes first contacts. In the connector 10 shown in FIG. 1, all the required number of contacts are shown in FIG. 4. A case where the first contact 14 is used is shown.

The first contact 14 is located on the insertion port 18 side of the housing 12 and is located on the opposite side of the board mounting surface (not shown) of the FPC or FFC connection target (FFC 40 in FIG. 2B). The first contact portion 22a that can be in contact with the surface 40a and the slider mounting side that is opposite to the insertion port 18 and that extends in a direction opposite to the first contact portion 22a and substantially parallel to the board mounting surface A first working piece that extends substantially linearly as a whole, a first connection portion 24a that is located on the slider mounting side and is surface-mounted on the substrate, and an insertion port A first reference piece having a first extending portion 22e located on the 18th side and extending substantially linearly at a position closer to the substrate than the first working piece, and one end of the first working piece, In the part located between the first contact part 22a and the first pressing part 20a And the other end has a first connecting piece (first connecting part 34a) connected to a portion of the first reference piece located between the first extending part 22e and the first connecting part 24a. The first working piece and the first reference piece are both arranged in parallel with the board mounting surface in a state where they are integrally connected by the first connecting piece (first connecting portion 34a). It is substantially H -shaped.

The first contact 14 shown in FIG. 4, further a first fixing portion 42 a for holding or fixed to the housing 12, and a third contact portion 22 c in contact with the connection object 40 to the first elongated portion 22e provided and a first contact portion 22a and the first connecting portion 34a and the first connecting portion 24 a, shows a case which is arranged in a positional relationship that a substantially crank shape. In addition, the first and third contact portions 22a and 22c are formed in a convex shape so as to be easily in contact with the connection object 40. In this case, the first and third contact portions 22 which are two contact portions are used . a, by 22 c, which is configured to sandwich the connection object 40, the first and third contact portions 22 across the surface 40a of the connection object 40 in this way is inserted at right angles on both sides a, by providing the 22c, the connection object 40 of the first and third contact portions 22 a, ing results so as to sandwich at 22c, it becomes possible to reliably press contact with the connection object 40. The first connecting portion 24 a is, in this embodiment shown in FIG. 1 shows a case where the surface mounting type (SMT), may be a dip type.

A first connecting portion 34a and the first pressure receiving portion 20 a, when the connection object 40 is inserted, so that the first contact 14 contacts the pressing and connecting object 40, the following operations It is the part of the 1st contact 14 which shows a mode . That is, after the connection object 40 is inserted into the insertion port 18 of the housing 12, it is pressed by rotation around the predetermined rotation axis X of the slider 16 , for example, rotation around the shaft portion 28 in the embodiment shown in FIG. 3. part 36 acts on the first pressure receiving portion 20a of the first contact 14, by pressing the first pressure receiving portion 20a, constituting the first contact portion 22 a is pressed into contact against the connection object 40 Is possible. A first connecting portion 34a the size and shape of the first pressure receiving portion 20 a, in order to configure indicating such operation mode is appropriately designed.

Moreover, it is preferable that the first contact 14 is provided with a swelling preventing means at a portion where the slider is mounted (for example, a tip side portion of the first pressing portion 20a). When the pressing portion 36 applies a pressing force to the first pressing portion 20a of the first contact 14 due to the rotation of the slider 16, the repulsive force against the rotation of the slider 16 is strong. This is because there is a tendency to swell and move in the direction of the arrow “c” of 1 (B), but this tendency can be prevented by providing this swelling prevention means. Further, it is preferable to provide the first protruding portion 26 at the tip side portion of the first pressing portion 20a as a swelling preventing means. The size of the first protruding portion 26 may be any size as long as it can fulfill the above-described role, and is appropriately designed to the extent that the pressing portion 36 of the slider 16 is caught. In addition, as shown in FIG. 2, the first pressing portion 20a portion and the first connecting portion 24a portion of the first contact 14 where the pressing portion 36 of the slider 16 moves at least in contact with each other are formed flat. It is preferable. In addition, the part formed flat is a part excluding the swelling preventing means when the swelling preventing means such as the second protrusion is provided. Furthermore, the first contact 14 is located at least in the front end portion of the first pressing portion 20a in the through hole 30 when the slider is open (in the first slider position), or FIG. As shown in FIG. 2B, when the slider is located outside (through the through-hole 30 as shown in FIG. 2A) and the slider is closed (in the second slider position), as shown in FIG. It arrange | positions in the housing 12 so that it may be located in. Further, the upper end position of the tip side portion of the first pressing portion 20a of the first contact 14 is such that the pressing portion 36 constituting the through hole 30 is in a state where the slider is closed, as shown in FIG. in the above, and it is good preferable in a position not exceeding the upper surface 37a of the connecting wall 37.

In addition, the dimension of the first contact 14 is such that the tip side portion (especially the upper end portion) of the first pressing portion 20a is within the thickness region of the housing 12 in the posture of the slider 16 at the second slider position. It is preferable to have a configuration .

Next, the slider which is another point of the present invention will be described. This slider is an electrically insulating plastic and is manufactured by a known technique of injection molding. The material is appropriately selected in consideration of dimensional stability, workability, cost, etc. In general, polybutylene terephthalate ( PBT), polyamide (66PA, 46PA), liquid crystal polymer (LCP), polycarbonate (PC), and synthetic materials thereof. The slider 16 is configured to rotate around a predetermined rotation axis X. For example the slider 16, in one embodiment shown in FIG. 3 includes a main shaft portion 28 which is mounted on the opposite side rotation capable the insertion opening 18 of the housing 12, the first pressure receiving portion of the first contact 14 20 a, and a required number of independent through holes 30 extending in the thickness direction of the slider 16 . The shaft portion 28 has a function as a shaft for the slider 16 times translocated on both sides (the alignment direction of the contacts) longitudinal direction of the housing 12, the slider 16 is mounted rotary possible as appropriate. Further, the through hole 30 is defined by a pressing portion 36, an opposing wall 35 that faces the pressing portion 36, and (two) connecting walls 37 that connect the pressing portion 36 and the opposing wall 35. . Further, on both sides (the alignment direction of the contacts) longitudinal direction of the slider 16, first from the first pressure receiving portion 20 operating portion height direction of the slider 16 upon pressing a (second slider position of the first contact 14 A lock portion (not shown) that engages with the housing 12 is provided so as not to be lifted in the direction of rotation toward the slider position in the direction opposite to the arrow “A” direction in FIG. ing. The lock portion may have any shape, size, etc. as long as it can engage with the housing 12 and is appropriately designed in consideration of the above-described role, the size, strength, etc. of the connector.

The slider 16 has a posture that is substantially perpendicular to the board mounting surface in a state where the tip side portion of the first pressing portion 20a of the first contact 14 is located inside the through hole 30 or outside after passing through the through hole 30. From the first slider position to be taken (slider position shown in FIG. 2A), the tip side portion of the first pressing portion 20a of the first contact 14 is positioned between the connecting walls 37 and 37 on the board mounting surface. The pressing portion 36 moves outward from the tip of the first pressing portion 20a of the first contact 14 over a moving range up to a second slider position (slider position shown in FIG. 2B) taking a substantially parallel posture. It is configured to be able to rotate forward and backward without being detached.

When the slider 16 is rotated forward in the movement range with the connection object 40 inserted, the pressing portion 36 rotates so that the longer dimension of the pressing portion 36 rises with respect to the board mounting surface. As the first pressing portion 20a of the first contact 14 is pressed and moves at least the distal end side of the first pressing portion 20a in the direction away from the substrate, the first contact portion 22a and the connection object 40 are moved. It is comprised so that it may press-contact.

The pressing portion 36 is continuously provided in the arrangement pitch direction of the required number of the first contacts 14, and is capable of pressing contact in a direction in which at least the tip side of the first pressing portion 20 a of the first contact 14 is separated from the substrate. 1 is a portion of the slider 16 that is disposed adjacent to the pressing portion 20a and is pressed against the first pressing portion 20a of the first contact 14 when electrically connected to the connection object 40. It has a cross-sectional shape with different dimensions such as long and short like an elliptical shape with an axis and a short axis. Specifically, it is preferable that at least a part of the pressing portion 36 that contacts the required number of first contacts 14 in the rotationally movable range (the moving range) of the slider 16 is formed with a smooth convex curved surface . As a suitable cross-sectional shape of the pressing part 36, for example, an elliptical shape including an elongated shape or an elliptical shape can be cited. By making the pressing portion 36 into the cross-sectional shape, the slider 16 is rotated in the direction of the arrow “A” as shown in FIG. 2A, and the first pressing of the first contact 14 is performed by the pressing portion 36 having the cross-sectional shape. By pressing both of the portion 20a and the first connecting portion 24a, a change in the size (dimension) of the pressing portion 36 moves at least the distal end side of the first pressing portion 20a of the first contact 14 in a direction away from the substrate. Accordingly, the first contact portion 22a of the first contact 14 can be pressed against the connection object 40. As the shape of the pressing portion 36, the first contact is caused by a different size (difference in size) such as a length by applying a pressing force to the first pressing portion 20 a of the first contact 14 as the slider 16 rotates. Any configuration may be used as long as the 14 first pressing portions 20a are configured to press away from the substrate.

Further, the size (dimension) of the pressing portion 36 is preferably set such that the longer cross-sectional dimension is smaller than the thickness dimension of the slider 16 in view of the cross-sectional shape of the pressing portion 36 . Further, at least a portion of the first pressure receiving portion 20a of the first contact 14 is at the posture of the slider 16 in the second slider position, it is more preferably contained within the thickness region of the slider 16.

Further, when the slider 16 is rotated, the repulsive force against the rotation of the slider 16 is strong, and the central portion of the slider 16 is prevented from bulging in the direction of the arrow “c” in FIG. The through hole 30 with which the first protrusion 26 of the first contact 14 engages is defined by the pressing portion 36, the opposing wall 35, and the (two) connecting walls 37, and is provided separately and independently. Thus the through-hole 30 that is provided separately and independently, Ru prevents deformation during strength up and rotation of the slider 16.

Finally, the housing 12 will be described. This housing is an electrically insulating plastic, and is manufactured by injection molding of a known technique. The material is appropriately selected in consideration of dimensional stability, workability, cost, etc. In general, polybutylene terephthalate ( PBT), polyamide (66PA, 46PA), liquid crystal polymer (LCP), polycarbonate (PC), and synthetic materials thereof. A required number of first contacts 14 are mounted on the housing 12, and a required number of first insertion grooves 38 that are arranged and held at intervals are provided, and the arrangement of the first contacts 14 is held (fixed). ) Can be performed by press-fitting, hooking (lance), welding or the like. As shown in FIG. 2, the first insertion groove 38 penetrates the housing 12 and is configured so that the entire length (particularly, the distal end portion and the upper end surface) of the first extension portion 22 e can be seen from the insertion port 18 side. it is good Masui.

Further, in the connector shown in FIG. 1, as an example, a case is shown in which bearing portions to which the shaft portion 28 of the slider 16 is rotatably mounted are provided on both longitudinal sides of the housing 12 . Shape and size of the bearing portion, if the shaft portion 28 of the slider 16 is mounted so as to be rolling times may be any one, be suitably designed in consideration of this role, strength and size of the housing 12 such . Note that locking portions (not shown) are provided at positions corresponding to the lock portions of the slider 16 on both sides in the longitudinal direction of the housing 12 . Further, the housing 12 does not interfere with the displacement of the first pressing portion 20a when the first pressing portion 20a of the first contact 14 is pressed and displaced by the pressing portion 36 of the slider 16. It is preferable to have a single notch that corresponds to the first contact 14 and is formed by notching the housing 12 (see FIGS. 2A and 2B).

Next, based on FIGS. 5 and 6, it will be described another embodiment of the present invention. Main components are the same as those described above, and include a housing 121 , contacts 14 and 142, and a slider 161 . A feature of the present embodiment is that the two types of contacts 14 and 142 are arranged in a staggered manner by alternately changing the insertion directions into the housing 121, and the arrangement pitch is changed by arranging the insertion directions in a staggered manner. This corresponds to the narrowing and low profile of the. Housing 121 and the slider 161 is at Ji housing 12 and the slider 16 and the basic configuration of the connector 10 shown in FIG. 1 described above is the same, is different, the housing 121, second contact 142 of the required number is attached The second insertion groove is provided, and the slider 161 can pass (penetrate) a tip side portion of the second pressing portion 20b of the second contact 142, which will be described later. The required number of independent through holes 30 extending in the thickness direction of the slider 161 corresponding to the portion 20b is provided. Also, of the two types of contacts 14,142, the first contact 14, which is one of the contacts is omitted similarly der because to that of FIG. 4 described above, the description. Figure 5 is a perspective view of another connector, FIG. 6 (A) shows a state in which the slider is opened (the state in the first slider position), the portion of a second contact 142, extending the second contact 142 FIG. 6B is a perspective view of the connector of the present invention cut in a direction , and FIG. 6B extends at a portion of a second contact 142 in a state where the FPC is inserted and the slider is closed (in the second slider position). It is a perspective view of the connector of the present invention cut in the direction .

Of the two types of contacts 14, 142, the second contact 142, which is the other contact, will be described. The second contact 142 is also made of metal, and is manufactured by a known press working. The material is the same as that of the first contact 14.

The second contact 142 shown in FIG. 6 is located on the insertion port 18 side of the housing 121, the second contact portion 22b that can contact the surface 40a of the connection target 40 located on the side opposite to the board mounting surface, and The second operating piece 20b is located on the slider mounting side and is pressed by the slider 161. The second operating piece extends substantially linearly as a whole, and the second operating piece is located on the insertion port 18 side and surface-mounted on the substrate. 2 having a second connecting portion 24b and a second extending portion 44 located on the slider mounting side, extending substantially linearly as a whole at a position closer to the substrate than the second operating piece, and one end thereof The second working piece is connected to a portion located between the second contact portion 22b and the second pressing portion 20b, and the other end is the second connecting portion 24b and the second extending portion of the second reference piece. A second connecting piece connected to a portion located between The second operating piece and the second reference piece are both arranged in parallel with the board mounting surface in a state of being integrally connected by the second connecting piece (second connecting portion 34b). It is H-shaped. Further, the second contact 142 may be formed in a substantially h shape as a whole without providing the second extending portion 44.

Further, second contact 142 shown in FIG. 6, a second contact portion 22 b, and a second connecting portion 24 b, a second fixing portion for holding or fixed to the housing 121 (not shown), the second connecting portion and 34b, the second pressure receiving portion 20 b and has a second extending portion 44, the second contact portion 22 b and the second connecting portion 34b and the second connecting portion 24 b, and substantially U-shaped Are arranged in a positional relationship . In addition, in the embodiment of FIG. 6, there is a positional relationship facing the second contact portion 22 b between the second connection portion 24 b and the second coupling portion 34 b of the second contact 142, and the board of the connection target 40 The case where the 4th contact part 22d which can contact the surface located in the mounting surface side is provided is shown. The 2nd contact part 22b and the 4th contact part 22d are made into the convex part shape so that it may contact with the connection target object 40 easily. That is, the connection object 40 is sandwiched between the second and fourth contact portions 22 b and 22 d which are two contact portions. Thus the inserted second and fourth contact portions 22b in the direction perpendicular both sides of the surface 40a of the connection object 40, by providing the 22 d, the connection object 40 and the second and fourth contact portions 22 b, As a result of being sandwiched by 22d , it is possible to reliably press and contact the connection object 40.
Note that the second connecting portion 24 b is in the present embodiment shown in FIG. 6 shows a case where the surface mounting type (SMT), may be a dip type.

A second connecting portion 34b and the second pressure receiving portion 20 b, similarly to the first connecting portion 34a and the first pressure receiving portion 20a of the first contact 14, when the connection object 40 is inserted, the slider 161 with the rotation, the pressing portion 36 acts on the second pressure receiving portion 20 b of the second contact 142, a second pressure receiving portion 20 b by pressure press, with respect to the second contact portion 22b is connected objects 40 The structure which press-contacts is enabled . A second connecting portion 34b size and shape of the second pressure receiving portion 20 b, in order to configure indicating such operation mode is appropriately designed.

The second contact 142 has a second protrusion (not shown) having a shape similar to that of the first protrusion 26 at a portion on which the slider is mounted (for example, a tip end portion of the second pressing portion 20b). It is also possible to provide a swelling prevention means such as As the slider 161 rotates, when the pressing portion 36 applies a pressing force to the second pressing portion 20b of the second contact 142, the repulsive force against the rotation of the slider 161 is strong. Although there is a tendency to swell and move in the direction of the arrow “c” in FIG. 6B, such a tendency can be prevented by providing the second protrusion. The size of the second protruding portion may be any size as long as it can fulfill such a role, and is appropriately designed to the extent that the pressing portion 36 of the slider 161 is caught. In addition, FIG. 6 shows a portion of the second pressing portion 20b of the second contact 142 and a portion of the second extending portion 44 in the case of a substantially H shape, in which the pressing portion 36 of the slider 161 moves at least in contact. Thus, it is preferable to form both flat. In addition, the part formed flat is a part excluding the swelling preventing means when the swelling preventing means such as the second protrusion is provided. Further, at least the tip side portion of the second pressing portion 20b of the second contact 142 passes through the through hole 30 as shown in FIG. 6A or inside the through hole 30 when the slider is open. When the slider 161 is located outside the through hole 30 and closed, the thickness of the housing 121 is above the pressing portion 36 constituting the through hole 30 as shown in FIG. It is preferable to be in the region . Furthermore a within the thickness area of the housing as shown in FIG. 6 (B), and it is good preferable that the upper end face 37a nor exceed the position of the connecting wall 37. Furthermore, it is more preferable that the second insertion groove formed in the housing 121 penetrates the housing 121.

According to the present invention, a stable electrical connection can be obtained by reliably pressing the contact portion of the contact with the connection object with the slider as the slider rotates without impairing the strength or specifications of each part. Thus, it has become possible to provide a connector with good workability and capable of narrowing the arrangement pitch and reducing the profile.

10, 60 connector 12, 121, 62 housing 14 first contact
142 2nd contact 16, 161, 66 Slider 18 insertion slot 20a , 20b 1st and 2nd pressing part 22a-22d 1st-4th contact part
22e 1st extension part 24a, 24b 1st and 2nd connection part 26 1st protrusion part 28 Shaft part 30 Through- hole 34a, 34b 1st and 2nd connection part
35 Opposing walls 36, 68 Pressing part
37 connecting wall 38 first insertion groove 40 connection object 42 , 42a fixing portion 44 second extending portion 70 receiving portion 72 slit 74 mounting portion 76 fixing tool

Claims (6)

A connector that is surface-mounted on a substrate and into which a connection object of a flexible printed circuit board (FPC) or a flexible flat cable (FFC) is inserted from a direction substantially parallel to the substrate mounting surface ,
A required number of contacts each having a contact portion that contacts the connection object and a connection portion that is surface-mounted on the substrate ;
Have a insertion port for the connection object is inserted, a contact of the desired number, and the housing of electrically insulating arranged held in spaced,
A slider mounted on a position opposite to the insertion port of the housing and pressing the contact;
In a connector comprising:
Each contact further includes a pressing portion that is positioned on the slider mounting side opposite to the insertion port side and is pressed by the slider, and the contact portion, the connection portion, and the pressing portion are made of the same metal. Formed integrally from the material,
The slider is
A pressing part having different cross-sectional shapes such as long and short, connected in the arrangement pitch direction of the required number of contacts, an opposing wall positioned opposite the pressing part, the pressing part and the opposing wall And a required number of independent through-holes extending in the thickness direction of the slider.
From the first slider position taking a posture that is substantially perpendicular to the substrate mounting surface in a state where the tip side portion of the pressing portion of the contact is located inside the through hole or outside that has passed through the through hole,
In a state where the tip side portion of the pressing portion of the contact is located between the connecting walls, over a moving range to a second slider position taking a posture substantially parallel to the substrate mounting surface,
The pressing portion is configured to be able to rotate forward and backward in a state where the pressing portion is not detached outward from the tip of the pressing portion of the contact,
With the connection object inserted, when the slider is rotated forward over the movement range, the portion along the longer cross-sectional dimension of the pressing portion rises with respect to the board mounting surface. As the pressing portion rotates and at least the pressing portion of the contact is pressed to move at least the distal end side of the pressing portion in a direction away from the substrate, the contact portion is connected to the connection target. Configured to press contact with an object,
The connector is characterized in that at least a part of the pressing portion that contacts the contact in the moving range is formed by a smooth convex curved surface . The connector according to claim 1, wherein a cross-sectional dimension of the longer side of the pressing portion is smaller than a thickness dimension of the slider. The connector according to claim 1, wherein a tip side portion of the contact portion of the contact is in a thickness region of the housing in a posture in which the slider is at the second slider position. The contact is
A first contact portion that is the contact portion that is located on the insertion port side and contacts the connection object, and a first pressing portion that is the pressing portion located on the slider mounting side and pressed by the slider. A first working piece having a generally linear shape as a whole;
It has a first connection part which is the connection part located on the slider mounting side and is surface-mounted on the substrate, and a first extension part located on the insertion port side, and is more than the first operating piece. A first reference piece extending substantially linearly as a whole at a position on the side;
One end is connected to a portion of the first working piece located between the first contact portion and the first pressing portion, and the other end is the first extending portion of the first reference piece and A first connecting piece connected to a portion located between the first connecting portions;
Have
The first working piece and the first reference piece both include a first contact that is disposed substantially parallel to the board mounting surface in a state where the first working piece and the first reference piece are integrally connected by the first connecting piece. Or the connector of 3. The contact is
A second contact portion that is located on the insertion port side and that is in contact with the connection object; and a second contact portion that is located on the slider mounting side and is pressed by the slider. A second actuating piece extending generally linearly as a whole;
It has a second connection part which is the connection part located on the insertion port side and is surface-mounted on the substrate, and a second extension part located on the slider mounting side, and the substrate is more than the second working piece. A second reference piece extending substantially linearly as a whole at the side position;
One end is connected to a portion of the second working piece located between the second contact portion and the second pressing portion, and the other end is connected to the second connecting portion and the second reference piece. A second connecting piece connected to a portion located between the second extending portions;
Have
2. The second operation piece and the second reference piece include a second contact that is disposed substantially parallel to the substrate mounting surface in a state where the second operation piece and the second reference piece are integrally connected by the second connection piece. Or the connector of 3. The contact is
A first contact portion that is the contact portion that is located on the insertion port side and contacts the connection object, and a first pressing portion that is the pressing portion located on the slider mounting side and pressed by the slider. A first working piece having a generally linear shape as a whole;
It has a first connection part which is the connection part located on the slider mounting side and is surface-mounted on the substrate, and a first extension part located on the insertion port side, and is more than the first operating piece. A first reference piece extending substantially linearly as a whole at a position on the side;
One end is connected to a portion of the first working piece located between the first contact portion and the first pressing portion, and the other end is the first extending portion of the first reference piece and A first connecting piece connected to a portion located between the first connecting portions;
Have
A first contact that is disposed substantially parallel to the substrate mounting surface in a state where the first operating piece and the first reference piece are integrally connected by the first connecting piece;
A second contact portion that is located on the insertion port side and that is in contact with the connection object; and a second contact portion that is located on the slider mounting side and is pressed by the slider. A second actuating piece extending generally linearly as a whole;
It has a second connection part which is the connection part located on the insertion port side and is surface-mounted on the substrate, and a second extension part located on the slider mounting side, and the substrate is more than the second working piece. A second reference piece extending substantially linearly as a whole at the side position;
One end is connected to a portion of the second working piece located between the second contact portion and the second pressing portion, and the other end is connected to the second connecting portion and the second reference piece. A second connecting piece connected to a portion located between the second extending portions;
Have
The second working piece and the second reference piece are both configured by a second contact that is disposed substantially parallel to the substrate mounting surface in a state where the second working piece and the second reference piece are integrally connected by the second connecting piece, The connector according to claim 1, 2 or 3, wherein the one contact and the second contact are arranged in a staggered manner by alternately changing the insertion direction into the housing in the arrangement pitch direction.