JP3753962B2 - Card connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card connector that is interposed between a card capable of recording predetermined information, such as a memory card, etc., and an electronic device, etc., and enables information transmission between the two. It is related with the card connector of the structure made through this.
[0002]
[Prior art]
A memory card has a small IC chip inside and can record various information, and the memory card is also used in small portable devices. For example, a GSM (Global Systems for Mobile communication) type mobile phone uses a small memory card called a SIM (Subscriber Identification Module) card as an ID card, and an electronic device via a card connector mounted on a substrate. Etc., information transmission is performed between them.
[0003]
Conventionally, various types of card connectors have been devised as card connectors used in portable devices. For example, a card mounting space is provided inside the back cover of the device, and after attaching the card so that the surface terminal of the memory card (hereinafter referred to as a card) comes into contact with and contacts the contact at the back of the mounting space, The thing of the structure which mounts | wears with the back cover of an apparatus is known. Although the card connector with such a configuration is simple, it has the difficulty that it is difficult to attach and detach the card, and when the card is excessively pressed when attaching or detaching the card, or when the card is rubbed in the direction perpendicular to the contact extension direction In addition, there is a problem that the surface terminals and contacts may be damaged.
[0004]
Therefore, in order to deal with the above problem, the card user does not directly handle the card and contact the surface terminal with the contact, but instead attach the card to the card holder once and swing the card holder to contact the surface terminal and the contact. There is known a card connector configured to contact the card.
[0005]
FIG. 9A shows an example of a card connector having such a card holder. The card holder 120 is attached to a base plate 110 provided with contacts 130 so as to be swingable and openable. In order to attach the card 80 to the card connector 100, the card 80 is first inserted and held in the card insertion slot with the card holder 120 opened, and the card holder 120 holding the card is in a state parallel to the base plate 110. After lying down, the card holder 120 is slid relative to the base plate 110 and the tip of the card holder 120 is engaged with the base plate 110 and locked to the base plate. As a result, the surface terminal 82 of the card 80 comes into contact with the contact portion 132 of the contact 130 with an appropriate contact pressure and is held on the base plate 110. When the card 80 is removed, the card holder 120 is opened by the contact pressure of the contact by sliding the card holder 120 in a direction opposite to that when the card 80 is mounted to release the lock, and the card 80 can be taken out.
[0006]
FIG. 9B is a second example of a card connector having a card holder. In this card connector 200, the card holder 220 is attached to the base plate 210 so as to be able to swing open and close. When the card holder 220 into which the card 80 is inserted is closed with respect to the base plate 210, the lock release button 250 avoids swinging. At this time, the surface terminal 82 of the card 80 is configured to come into contact with the contact portion 232 of the contact 230 with an appropriate contact pressure. When the card 80 is taken out, if the lock release button 250 is pressed, the lock is released and the card holder 220 is opened by the contact pressure of the contact so that the card 80 can be taken out.
[0007]
In the card connectors 100 and 200 having the above-described configuration, the surface terminal 82 of the card 80 is connected to the terminals of the base plates 110 and 210 simply by swinging and lying down with the card holder inserted into the card holders 120 and 220. There exists an advantage that it can contact | abut with 130,230.
[0008]
[Problems to be solved by the invention]
However, in the case of the card connector shown in FIG. 9 (a), the card holder cannot be held at this position only by swinging and falling down. On the other hand, there is a problem that it is difficult to perform the operation because it is necessary to slide and move the lock. Furthermore, if the slide movement is incomplete, there is a problem that the lock may be released halfway. Further, in the case of the card connector shown in FIG. 9B, there are few such problems, but there is a problem that the lock mechanism becomes complicated.
[0009]
The present invention has been made in view of such problems, and it is possible to lock and hold the card holder in the fall position (closed posture position) simply by swinging and lying down, and simplify the mechanism for holding the card holder. It is an object of the present invention to provide a card connector having a configuration that can be used.
[0010]
[Means for Solving the Problems]
  In order to achieve such an object, the present invention has a base plate provided with a contact and a card holding space in which a card insertion / extraction opening is formed on the front end side, and the rear end side is supported by the base plate so that it can swing up and down. A card connector configured to receive and hold the card in the card holding space from the insertion / removal port at the open position where the card holder is swung upward with respect to the base plate. The card holder holding the card is swung to the closed posture position so as to cover the upper surface of the base plate, and the surface terminal provided on the card and the contact are brought into contact with each other. A shaft portion is provided on one of the rear end side of the base plate and the rear end side of the card holder, and a shaft support portion that supports the shaft portion is provided on the other side. The rear end side of the card holder is placed on the base plate by the shaft portion and the shaft support portion. The base plate and the card holder are provided so as to be able to swing up and down and slide in the front-rear direction. A cam mechanism for sliding the card holder forward while swinging and falling, a latch holding means provided on the front end side of the base plate and the front end side of the card holder, for latching and holding the card holder in the closed position, and the base plate Provided in the middle part of the card and the middle part of the card holder,A plate-side protrusion formed on the base plate and protruding upward or downward, and a holder-side protrusion formed on the card holder and protruding upward or downward, the plate-side protrusion and the holder-side protrusion are By engaging each otherLocking means for locking and holding the card holder in the closed posture position, and when the card holder swings and falls to the closed posture position, the card holder is slid forward with respect to the base plate by the cam mechanism.And the plate-side protrusions of the locking means move so as to get over the holder-side protrusions and engage with each other,The card holder slid forward is held in the closed posture position by the shaft portion and the shaft support portion, and the latch holding means and the lock means.
[0011]
  According to the card connector having such a configuration,The card holder can be locked and held in the closed position only by swinging the card holder from the open position to the closed position.Furthermore, a card connector that is easy to mount and that has a simple configuration can be obtained.
[0012]
  In the card connector configured as described above, the shaft support portion abuts the shaft portion.Convex downwardCylindrical surface and front slide regulating surface formed in front of the cylindrical surfaceAnd a rear slide regulating surface formed on the rear side of the cylindrical surface, and a relief surface that smoothly connects the cylindrical surface and the front slide regulating surface.And at least a cylindrical surface,Front slide regulating surface, Rear slide regulating surface and flank surfaceSurrounded by,The shaft support space is formed in the shaft support portion so that the shaft portion can be moved in the front-rear direction. The card holder swings and falls to the closed posture position, and the card holder is moved relative to the base plate by the cam mechanism. When the slide is moved forward, the shaft moves so as to get over the cylindrical surface in the pivot space, reaches between the cylindrical surface and the front slide regulating surface, and the card holder in the closed position is moved. It is preferable that movement in the front-rear direction is restricted.
[0013]
  The locking holding means has a protruding end formed on one of the base plate and the card holder and a holding groove formed on the other and capable of receiving the protruding end, and the card holder is swung to the closed posture position. When the card holder is tumbled down and slid forward with respect to the base plate by the cam mechanism, the projecting end portion is inserted into the holding groove so as to latch and hold the card holder in the closed posture position. PreferablyYes.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a preferred embodiment of a card connector 1 according to the present invention as a perspective view, and FIGS. 2 (a), (b) and (c) show a plan view, a side view and a front view of the card connector 1, respectively. Further, FIG. 7 shows a side sectional view taken along arrow VII-VII in FIG. 2A, and FIG. 8 shows a partial sectional view taken along arrow VIII-VIII. In the present specification, for convenience of explanation, front and rear, left and right, and top and bottom are defined and described so that coordinate axes and directions are added in FIG.
[0015]
The card connector 1 includes a rectangular flat base plate 10, a card holder 20 supported on the base plate so as to be swingable and slidable, and a plurality of contacts 30 press-fitted and fixed to the base plate 10. As shown in FIG. 1, the card 80 is received and held in the open posture position with the card holder 20 open relative to the base plate 10, and is provided in the card 80 in the closed posture position that is laid down so as to cover the upper surface of the base plate 10. The card connector has a configuration in which the surface terminal 82 and the contact 30 are in contact with each other.
[0016]
The base plate 10 includes a rectangular flat plate portion 11, shaft support portions 12 and 12 formed on the left and right sides of the rear end side of the plate portion 11, and front holding portions 13 </ b> L and 13 </ b> R formed on the left and right sides of the front end side of the plate portion 11. , Center overhanging portions 14 and 14 erected on the left and right side portions of the plate portion 11, positioning pins 18 a and 18 b formed to protrude from the lower surface of the plate portion 11, for example, liquid crystal polymer (LCP) or polyphenylene Using an electrically insulating resin material such as sulfide (PPS) polyamideimide (PAI), it is integrally molded into the shape shown in the figure by molding means such as injection molding.
[0017]
At the center of the plate portion 11, four elongated contact slots 11 a extending in the front-rear direction of the plate portion 11 are formed side by side in two rows on the left and right sides, and the contact slots 11 a and the front and rear sides of the plate portion 11 are formed. A dovetail-shaped contact holding groove 11b for holding the contact 30 is formed between the side end surfaces.
[0018]
The contact 30 is formed at a base 31 fixed to the contact holding groove 11b, a contact arm 32 extending in an elongated finger shape from the base 31 and partially bent upward, and a tip of the contact arm 32. And a lead portion 34 bent downward and horizontally from the base portion 31 and extending in the opposite direction to the contact arm portion 32. For example, beryllium copper or stainless steel for springs. A thin plate of a conductive metal material such as is processed and formed by a forming means such as a fine blanking press to form the shape shown in the figure.
[0019]
Each contact 30 is inserted into a contact slot 11a from a contact holding groove 11b formed before and after the plate portion 11, and a base portion 31 is press-fitted into the contact holding groove and attached to the base plate 10. When the base 31 is fixedly held in the contact holding groove 11b, the contact 30 acts like a leaf spring in which the contact arm portion 32 protruding into the contact slot 11a is cantilevered, and the contact portion 33 at the tip of the arm moves up and down. It is supported so as to be swingable and displaceable in the direction.
[0020]
For this reason, the contact portion 33 is positioned so as to protrude from the contact slot 11a to the upper surface of the plate portion 11 when no load is applied. However, when pressed from above, the contact arm portion 32 is elastically deformed and swings downward. The entire contact arm portion 32 including the contact portion 33 is accommodated so as to be pushed down into the contact slot 11a (see FIG. 7). The lead portion 34 bent downward and horizontally folded from the base portion 31 is located at substantially the same height as the lower surface of the plate portion 11 in the contact mounting posture, and is mounted by positioning pins 18a and 18b protruding from the lower surface of the plate portion. The lead part 34 aligned with the circuit pattern of the board is soldered (surface mounted) to the circuit pattern on the board.
[0021]
The card holder 20 includes a rectangular flat cover portion 21, rear projecting portions 22 and 22 formed on the left and right sides of the rear end side of the cover portion 21, and front projecting portions formed on the left and right sides of the front end side of the cover portion 21. 23, 23, stoppers 27, 27... Projecting from the center of the rear end side of the cover portion 21 and the like, and are integrally molded using the same resin material as the base plate 10.
[0022]
The front projecting portions 23 and 23 provided on the left and right sides of the front end side of the cover portion 21 are each formed in a “U” shape opened to the left and right in the front view, and are inserted from the card insertion opening 26 at the front end. The card 80 is guided by the left and right side wall surfaces 23a, 23a and the support side portions 23b, 23b arranged in parallel to the cover portion 21, so that the card 80 can be inserted smoothly. Similarly to the front overhang 23, the back overhangs 22 and 22 provided on the left and right sides of the rear end side of the cover 21 are formed with side wall surfaces 22a and support side portions 22b. The card 80 inserted from 26 is guided to be inserted to the back of the card holder without tilting.
[0023]
Stoppers 27, 27,... Are provided on the rear side of the card holder 20 so as to protrude downward, and the card 80 inserted into the card holder 20 has a tip portion (an end portion on the side inserted into the card holder 20). By contacting these stoppers 27 from the front, the card holder 20 is positioned. As shown in FIG. 1, a tapered portion 81 a for clarifying the orientation of the card 80 is formed at one corner of the main body portion 81 of the card 80. The card holder 20 is inserted into the card holder 20 in a posture positioned on the rear right side with respect to the insertion direction (at this time, the surface terminal 82 on the back side of the card is a lower surface in the lying down direction).
[0024]
The rear end portions of the left and right rear projecting portions 22 and 22 are separated from the cover portion 21 and extend rearward in an arm shape, and semi-cylindrical shaft portions 22c and 22c projecting inward to the left and right are formed at the front end portions. Has been.
[0025]
On the other hand, the shaft support portions 12 and 12 on the side of the base plate 10 that receive and support the left and right shaft portions 22c and 22c are combined with a change in the position of the card holder 20 in a partial cross-sectional view taken along arrows VIII-VIII in FIG. 8 (a), 8 (b), and 8 (c), slide regulating surfaces 12a and 12b formed at the front and rear, a cylindrical surface 12c convex downward, and a front slide regulating surface 12a and a cylindrical surface. 12c is formed with a clearance surface 12d that smoothly connects to 12c, and a shaft support space 12s that is surrounded by these surfaces and that opens downward and to the left and right is formed. Between the rear side slide regulating surface 12b and the cylindrical surface 12c, there is formed a “U” -shaped card holder mounting opening that opens to the left and right outside in plan view (see FIG. 2 (a)). The holder-side shaft portion 22c is press-fitted from above the mounting opening in a mounting posture in which the card holder 20 is vertical (a posture in which the flat surface of the shaft portion 22c abuts on the cylindrical surface 12c), and is inserted into the shaft support space 12s. .
[0026]
In the shaft support space 12s, the downwardly convex cylindrical surface 12c and the upwardly convex shaft portion 22c face each other, and the cylindrical surfaces are always in contact with each other. The distance between the front and rear slide regulating surfaces 12a and 12b in the shaft support space 12s is set larger than the diameter of the shaft portion 22c, and the shaft portion 22c can move back and forth in the shaft support space 12s. Therefore, the card holder 20 is vertically moved between an open posture position opened with respect to the base plate 10 and a closed posture position in which the cover portion 21 is closed on the base plate 10 so as to cover the contacts 30, 30,. It can swing (open and close).
[0027]
Position alignment between the front overhanging portion 22 and the rear overhanging portion 23 of the card holder 20 supported so as to be swingable and slidable in this way is aligned with the central overhanging portion 14 protruding upward from the plate portion 11. And a locking mechanism (locking means) is provided between the rear part of the central overhanging part 14 and the front part of the rear overhanging part 22, and the front part of the central overhanging part 14 and the front overhanging part A cam mechanism (guide mechanism) is provided between the rear portion of the portion 23.
[0028]
The lock mechanism includes a plate-side lock arm 14 m formed at the rear of the left and right central overhanging portions 14 and a holder-side lock arm 22 m formed at the front of the rear overhanging portion 22. The plate-side lock arm 14m is configured such that a downwardly projecting arc-shaped protrusion is formed on the rear end side of the arm portion protruding rearward from the rear upper part of the center overhanging portion 14, and the holder-side lock arm 22m is rearward. An upwardly protruding arc-shaped protrusion is formed on the front end side of the arm portion that protrudes forward from the lower front portion of the overhang portion.
[0029]
When the card holder 20 is swung from the open posture position to the closed posture position, the lock arms 14m and 22m, as will be described later with reference to FIGS. In the end swing region (cam operation region) where the card holder 20 is moved to the closed posture position, it is slid forward while swinging by the action of the cam mechanism, and the holder side lock arm 22m The arcuate protrusions move so as to get over the arcuate protrusions of the plate-side lock arm 14m and engage with each other to restrict the card holder 20 from freely moving in the front-rear direction. Further, in the engaged state, the card holder 20 is restricted from swinging in the opening direction by the upper and lower arms.
[0030]
Further, when the card holder 20 is slid forward while swinging as described above, the shaft portion 22c of the card holder 20 gets over the cylindrical surface 12c in the shaft support space 12s of the base plate 10 and the front slide regulating surface. It is moved to a position where it abuts on 12a (see FIG. 8C). When the card 80 is mounted on the card holder 20, the entire card holder 20 is biased upward by the spring force of the contact 30, and the shaft portion 22c is attached to the front by the action of the upper and lower cylindrical surfaces that are in contact with each other. And is positioned so as to be sandwiched between the cylindrical surface 12c and the front slide regulating surface 12a. For this reason, the card holder 20 is also restricted from freely moving in the front-rear direction here, and is firmly held against impacts in the front-rear direction and the up-down direction.
[0031]
The cam mechanism is formed at the front edge of the left and right central overhanging portions 14 and includes a sloped first cam surface (guide surface) 14f that descends obliquely from the upper end surface of the central overhanging portion 14 toward the base plate 11. It is configured. On the card holder 20 side, a sloped second cam surface (slide surface) 23f formed downward is formed at the rear edge of the front overhang 23, and these first and second cam surfaces 14f, 23f are formed. The cam mechanism is configured by the above. For this reason, when the card holder 20 swings and falls to the closed posture position, the second cam surface 23f abuts against the first cam surface 14f and slides on this surface, and the card holder 20 swings and falls while the base plate 10 Guide to slide forward. The operation at this time will be described later.
[0032]
The front end portion of the base plate 10 is divided into left and right front holding portions 13L and 13R. The bottom sides of the base plate 10 extend from the front end side of the card holder 20 so as to project the support side portions 23b and 23b. Holding grooves 13h and 13h for receiving the end portions 23h and 23h are formed. As can be seen from this, the protruding end portions 23h and 23h and the holding grooves 13h and 13h constitute locking and holding means for preventing the card holder 20 from swinging in the open posture position direction (upward). Thus, the holding groove 13h on the base plate 10 side and the protruding end 23h on the card holder 20 side cause the card holder 20 to fall down, and the card holder 20 is swung while being guided by the first cam surface 14f. The protruding end 23h of the card holder is guided and fitted into the holding groove 13h of the base plate while being slid forward. Accordingly, the card holder 20 is firmly held so as not to swing in the opening direction together with the above-described lock mechanism.
[0033]
Of the left and right front holding portions 13L, 13R, the left front holding portion 13L is provided with a card holding wall 13La facing the front end surface of the card 80 held in the closed position, and the right front holding portion 13R has A card holding wall 13Ra facing the tapered portion 81a formed at the right corner of the card 80 held by the card holder 20 is provided. These card holding walls 13L, 13R hold the card 80 in the front-rear direction between the card holder rear end side stoppers 27, 27... In the closed position where the card holder 20 is closed, and the impact force in the front-rear direction. , The card 80 that slides by the reaction force is abutted and supported to prevent the card 80 from falling off.
[0034]
In the closed position where the card holder 20 is closed, the cover portion 21 positioned immediately above the contact portion 33 of the contact has an elongated hole portion 21a penetrating the front and back corresponding to each contact 30, 30. 21a... Are provided (see FIG. 1). For this reason, for example, when the card connector 1 is mounted on a board of an electronic device and performs a function test, the card holder 20 is not opened and inspected, and the card holder 20 is kept closed from above the cover portion. The contact probe for inspection can be brought into contact with the contact portions 33, 33... Through the hole 21a, and inspection can be performed. For example, whether or not the contact 30 is correctly press-fitted as many as the number of pins according to the specification. It is possible to optically check whether or not the is mounted.
[0035]
Next, the procedure for attaching the card 80 to the card connector 1 configured as described above and the operation of each part will be described with further reference to FIGS. 3 (a) and 3 (b) show the procedure until the card 80 is inserted and held in the card holder 20 with the card holder 20 opened, and FIGS. 4 to 6 follow FIG. 3 (b). An attachment procedure after the card holder 20 holding the card 80 is laid down on the base plate 10 is shown. In FIG. 4 and FIG. 5, the card 80 is not shown.
[0036]
When the card 80 is attached, first, the front end portion of the card 80 is inserted in parallel with the cover portion 21 from the card insertion opening 26 in the open posture position where the card holder 20 is opened upward (FIG. 3A). The card 80 is guided to the card holder smoothly by being guided by the side wall surfaces 23a and 23a and the support side portions 23b and 23b of the left and right front projecting portions, and further, the side wall surfaces 22a and 22a and the support side portions of the rear projecting portion. Guided by 22b and 22b without being inclined to the back of the card holder, and held by the card holder 20 at a position where the front end face of the card 80 abuts against the guides 27, 27... (FIG. 3 (b)). .
[0037]
Next, the card holder holding the card 80 is laid down so as to cover the upper surface of the base plate 10 with the shaft portion 22c as the center of oscillation, as indicated by an arrow in FIG. In the lodging process, first, as shown by (1) to (7), the card holder 20 is closed in a state where the card holder 20 is positioned on the rear side in the shaft support space 12s of the shaft support portion 12 (the state shown in FIG. 8A). It is rocked down and tilted toward the posture position. FIG. 6 shows a movement trajectory A of the front end position of the card holder 20 and a movement trajectory B of the holder side lock arm 22m at this time. In this swing region, the first and second cam surfaces 14f and 23f are separated. A locus that swings about the shaft portion 22c in a substantially fixed state is drawn, and this is referred to as an open / close swing region.
[0038]
As shown in detail in FIG. 5, when the card holder 20 is opened and closed to the position indicated by (8), the second cam surface 23f comes into contact with the first cam surface 14f, and at this time, the force to push down the card holder 20 is applied. The card holder 20 is slid forward and acts in the normal direction of contact between the cam surfaces 14f and 23f. As a result, the front end position of the card holder 20 and the position of the holder-side lock arm 22m are slid forward while swinging downward as indicated by lines A and B in FIG. The moved rocking region is referred to as a cam operation region).
[0039]
As a result, when the card holder 20 is completely swung to the closed position as indicated by a circled number 12, the protruding end 23h of the card holder 20 enters the holding groove 13h of the base plate 10 and is held in a locked state. In addition, the plate side lock arm 14m and the holder side lock arm 22m are engaged, and the card holder 20 is firmly held in this closed position. At this time, the shaft portion 22c moves forward in the shaft support space 12s.
[0040]
As can be seen from this, the card holder 20 is swung downward by swinging in the cam operating region only by pushing down the card holder 20 from the open position to the closed position and swinging it. By sliding forward, the locking mechanism prevents front-back sliding, and the protruding end 23h of the card holder 20 enters the holding groove 13h of the base plate 10 to prevent swinging in the vertical direction.
[0041]
When removing the card 80 thus mounted, the card holder 20 is slid backward while pressing down to release the lock held by the left and right lock mechanisms, and the protruding end 23h and the holding groove 13 are removed. Release the engagement. When the engagement between the projecting end 23h and the holding groove 13 is released, the card holder 20 is lifted upward by the spring force of the contact 30, and thereafter the card holder 20 is swung and deployed upward to gently slide the card 80. Just pull through
[0042]
Although the preferred embodiments of the present invention have been described so far, the scope of the present invention is not limited to the above-described examples. For example, in the above-described embodiment, the swinging fulcrum of the card holder is configured to be slidable back and forth with respect to the base plate, and the shaft portion 22c provided in the card holder 20 is in the shaft support space 12s provided in the base plate 10. Although the supported form was illustrated, the structure which provides a shaft part on the baseplate side contrary to this, and provided the groove part which supports a shaft part to a card holder side so that a slide movement is possible may be sufficient.
[0043]
Also, the cam mechanism that slides forward while swinging the card holder is composed of the first and second cam surfaces formed at the intermediate portion of the base plate and the card holder, but the shaft portion 22c has the same function. A cam mechanism may be provided.
[0044]
In addition, as an example of the locking means, a lock mechanism in which the plate side lock arm 14m provided on the base plate 10 and the holder side lock arm 22m provided on the card holder 20 are vertically assembled is illustrated. A lock mechanism in a combined form may be used. Furthermore, although the structure which the protrusion (protrusion end part 23h) provided in the card holder 20 fits into the hollow (holding groove 13h) provided in the base plate 10 was illustrated, the hollow provided in the card holder 20 contrary to this was illustrated. May be configured to fit into protrusions provided on the base plate 10.
[0045]
In this specification, for convenience of explanation, the front and rear, the left and right, and the up and down directions are defined as described with reference to the coordinate axes in FIG. 1, but these directions are used when the card connector body is mounted and mounted on the board. It is not intended to define the mounting posture, etc., and it is not affected at all even if the designation of front, rear, left and right is changed by changing the posture of viewing the connector. In the embodiments, the SIM card is exemplified as an example of the card-like recording medium. However, the type and size of the card are not limited to the card, and the same applies to other types of card-like recording media. The same effect can be obtained.
[0046]
【The invention's effect】
As described above, according to the present invention, the rear end side of the card holder is configured to be slidable in the front-rear direction with respect to the base plate, and the base plate and the card holder swing and fall down to the closed posture position. And a cam mechanism that slides forward while engaging and swinging the card holder in a closed position, and is located above the rear end of the card holder in the closed position and the card holder is in the open position Locking holding means for preventing the card holder from swinging, and when the card holder swings and falls to the closed posture position, the card holder is slid forward with respect to the base plate by the cam mechanism, and the locking holding means Since the card connector is designed to be locked and held in the closed posture position, the card connector is simply provided with a cam mechanism and a locking holding means. It can be formed, and can be locked held in the closed position positions the card holder by simply swinging the card holder from the open posture position to the closed position location.
[0047]
In the card connector configured as described above, there is provided a locking means including a plate-side protrusion formed on the base plate and protruding upward or downward, and a holder-side protrusion formed on the card holder and protruding upward or downward, When the card holder swings and falls to the closed position, and the card holder is slid forward with respect to the base plate by the cam mechanism, the plate side protrusion is engaged with the holder side protrusion and the card holder is locked by the locking means. Is preferably held at the closed posture position moved forward. In this way, when the card holder is swung from the open posture position to the closed posture position, and the card holder is locked and held in the closed posture position by the cam mechanism and the locking and holding means, the card holder is held by the locking means. The card holder can be securely held in the closed posture position, and the card holder can be held in the closed posture position even when an external force is applied, such as when the card connector is dropped.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a card connector according to the present invention together with a memory card attached to the card connector.
FIG. 2 shows the card connector in a state in which the card holder is closed. FIGS. (A), (b), and (c) are a plan view, a side view, and a front view, respectively, of the card connector.
FIGS. 3A and 3B are perspective views showing a step-by-step state of mounting a card on the card connector, wherein FIG. 3A is a step of inserting a card into a card holder in an open posture position, and FIG. 3B is a card holder holding the card; Indicates the stage of surrendering.
FIG. 4 is a side view showing a state in which the card holder in which the card is mounted is opened / closed and swung in an open / close swing region in this connector.
FIG. 5 is a side view showing a state in which the card holder in which the card is mounted is opened / closed and swung in the cam operating region in the connector.
FIG. 6 is a locus diagram showing the movement locus of the tip and intermediate positions of the card holder from the open / close swing region to the cam operation region when the card holder is swung from the open position to the closed position as described above. It is.
7 is a cross-sectional view taken along the arrow VII-VII in FIG. 2, where (a) is a step of lying down of a card holder, (b) is a step of being temporarily held by a base plate, and (c) is a cross-section in a locked state. FIG.
8 is a partial cross-sectional view taken along arrow VIII-VIII in FIG. 2, showing a state in the vicinity of the swing axis of the card holder together with a card mounting stage. Among these, (a) shows a state immediately after the card holder is fallen down, (b) shows a state where the card holder is further forcedly fallen, and (c) shows a locked state.
FIG. 9A is a perspective view showing a first example of a conventional card connector together with a card, and FIG. 9B is a perspective view showing a second example of a conventional card connector together with a card.
[Explanation of symbols]
1 Card connector
10 Base plate
12 Shaft support (swing fulcrum)
13h Holding groove (dent)
14f First cam surface
14m Plate side lock arm (locking means)
20 Card holder
22c Shaft (oscillating fulcrum)
22m Holder side lock arm (locking means)
23f Second cam surface
23h Protruding end (protrusion)
26 Insertion / extraction opening
30 contacts
80 Memory card (card)
82 terminals

Claims (3)

A base plate provided with a contact, and a card holder having a card holding space in which a card insertion / extraction opening is formed on the front end side and a rear end side supported by the base plate so as to be swingable up and down. The card holder is received and held in the card holding space from the insertion / removal opening at an open posture position where the card holder is swung upward, and the card holder holding the card is covered with the upper surface of the base plate A card connector configured to oscillate to a closed posture position closed to bring the surface terminal provided on the card into contact with the contact,
A shaft portion is provided on one of the rear end side of the base plate and the rear end side of the card holder, and a shaft support portion that supports the shaft portion is provided on the other side. The shaft portion and the shaft support portion of the card holder The rear end side is configured to be able to swing up and down with respect to the base plate and to be slidable back and forth.
A cam mechanism that is provided on the base plate and the card holder, and slides forward while swinging and falling the card holder by engaging each other when the card holder swings and falls to the closed posture position;
Locking holding means provided on the front end side of the base plate and the front end side of the card holder, and locking and holding the card holder in the closed posture position;
A plate-side protrusion provided on the intermediate portion of the base plate and the intermediate portion of the card holder , formed on the base plate and protruding upward or downward, and formed on the card holder and protruding upward or downward. A lock means for holding the card holder in the closed position by having the holder side protrusion, and the plate side protrusion and the holder side protrusion engaging each other ;
When swinging laid down the card holder to said closed position position, is slid forward relative to the card holder the base plate by the cam mechanism Rutotomoni, the plate-side protrusions the holder side of said locking means The card holder moved so as to get over the protrusion and engaged with each other, and the card holder slid forward is held in the closed position by the shaft and the shaft support, and the locking and holding means and the locking means. A card connector characterized in that the card connector is configured as described above. The shaft support part is located on the lower side of the cylindrical surface that protrudes downward from the cylindrical part, the front slide regulating surface that is formed on the front side of the cylindrical surface, and the rear side of the cylindrical surface. A rear slide regulating surface formed, and a flank that smoothly connects the cylindrical surface and the front slide regulating surface , at least the cylindrical surface , the front slide regulating surface , and the rear slide. Surrounded by a restriction surface and the flank surface, a shaft support space in which the shaft portion is accommodated so as to be movable in the front-rear direction is formed in the shaft support portion,
When the card holder is swung over to the closed posture position and the card holder is slid forward with respect to the base plate by the cam mechanism, the shaft portion moves the cylindrical surface in the shaft support space. It is configured to move so as to get over and reach between the cylindrical surface and the front slide restriction surface, and the movement of the card holder in the front-rear direction at the closed position is restricted. The card connector according to claim 1. The locking holding means has a protruding end formed on one of the base plate and the card holder, and a holding groove formed on the other and capable of receiving the protruding end,
When the card holder swings and falls to the closed posture position and the card holder is slid forward with respect to the base plate by the cam mechanism, the protruding end portion fits into the holding groove and the card The card connector according to claim 1, wherein the holder is configured to latch and hold the holder in the closed posture position.

Images