JP4104370B2 - Card connector device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card connector device for mounting an information card containing a semiconductor chip and connecting an external connection terminal provided on the information card to a required electronic circuit.
[0002]
[Prior art]
Conventionally, an electronic device such as a personal computer, a video camera, an electronic camera, and a mobile phone can be detachably mounted with an information card having a built-in semiconductor chip and a card shape as an external storage device. It has been.
[0003]
This type of electronic device is provided with a card connector device for connecting an external connection terminal provided on the information card to an electronic circuit provided in the electronic device. However, a conventional electronic device has a specific structure. A card connector device that can mount only one type of information card is provided, so that it is not possible to mount a plurality of types of information cards having different shapes, sizes, and quantities and arrangements of external connection terminals.
[0004]
[Problems to be solved by the invention]
As the information card, since various types of information cards having different shapes and sizes and the number and arrangement of external connection terminals have been provided in the market, a plurality of types of information cards can be mounted on an electronic device as required. Thus, it is required to improve the convenience of use of the electronic device.
[0005]
However, even if multiple types of information cards with different shapes and sizes, and the number and arrangement of external connection terminals can be installed, if multiple types of information cards with different lengths are installed, If the amount of protrusion of the information card changes depending on each information card, the usability of the electronic device provided with the card connector device changes depending on the type of information card, so that the operability of the electronic device deteriorates. There is a fear.
[0006]
The present invention has been made in order to eliminate such deficiencies in the prior art, and an object of the present invention is to be able to mount two types of information cards having different lengths, and the end portion of the mounted information card. Is to provide a card connector device capable of restricting the position of the card to the same position.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is electrically connected to a card insertion portion into which a long first card and a short second card can be individually inserted, and an external connection terminal provided on the first card. A first terminal member; a second terminal member electrically connected to an external connection terminal provided on the second card; and a first lock electrically connecting the first card to the first terminal member. Locking means for locking at a position and locking the second card at a second locking position electrically connected to the second terminal member; The locking means is pressed by the first card or the second card inserted into the card insertion portion and moved in the card insertion direction, and a member moved relative to the card discharge member. The formed heart cam groove, one end rotatably attached to the card discharge member, and the other end engaged with the heart cam groove, and the card discharge member are always urged in the card discharge direction. A biasing member, wherein the heart cam groove has a first circulation groove in which a tip end portion of the cam engaging pin moves when the first card is inserted into the card insertion portion and the card insertion portion in the card insertion portion. A second circulation groove is formed in which a tip of the cam engagement pin moves when a second card is inserted, and the first lock position is provided in a part of the first circulation groove; The second lock position is provided in a part of the two circulation grooves, and the first circulation groove and the second circulation groove are communicated with each other via a communication groove, and the first card is inserted into the card insertion portion. A first operating member that switches the tip of the cam engagement pin to the first circulation groove side when The locking means is By setting the distance between the first lock position and the second lock position to the difference in length between the first card and the second card, The position of the end portion of the first card locked at the first lock position and the position of the end portion of the second card locked at the second lock position are the same position, and When the first card is inserted, When the first card operates the first operation means, the tip end portion of the cam engagement pin moves in the first circulation groove. When the lock position of the lock means is switched to the first lock position and the second card is inserted, When the tip of the cam engagement pin moves in the second circulation groove, The lock position of the lock means is switched to the second lock position.
[0008]
In this way, the first card is locked so that the position of the end of the first card locked at the first lock position is the same as the position of the end of the second card locked at the second lock position. When the lock means for switching between the position and the lock position of the second card is provided, two types of information cards having different lengths can be attached to the card connector device, and the convenience of use of the electronic device can be enhanced. Thus, it is possible to provide a card connector device that can align the positions of the end portions of each information card and maintain good operability of the electronic device.
[0010]
Also, A card discharge member that moves in the card insertion direction when the locking means is pressed by the first card or the second card, a heart cam groove formed in a member that moves relative to the card discharge member, and one end of the card discharge member If it comprises a cam engaging pin whose other end is engaged with the heart cam groove and a biasing member that constantly biases the card ejection member in the card ejection direction, there are two types with a simple configuration. Since it is possible to configure a lock member that can lock information cards having different lengths at predetermined positions and that can automatically eject a mounted information card, a high-performance card connector device can be provided at low cost. .
[0012]
Also, A first circulation groove and a second circulation groove are formed in the heart cam groove, and a distance between a first lock position formed in a part of the first circulation groove and a second lock position formed in a part of the second circulation groove. Is set to the difference between the lengths of the first card and the second card, two types of information cards having different lengths can be locked at a predetermined position with a simple configuration. Connector device can be provided.
[0014]
Also, When the first circulation groove and the second circulation groove are communicated with each other via the communication groove, the configuration of the heart cam groove can be integrated, and the card connector device can be miniaturized. in addition, When the first card is inserted into the card insertion portion, the tip of the cam engagement pin is switched to the first circulation groove side, and when the second card is inserted into the card insertion portion, the tip of the cam engagement pin is changed to the second. 1st operation part maintained on the circulation groove side Material If equipped, the type of information card inserted The tip of the cam engagement pin is securely engaged with the predetermined circulation groove. Can be Because It is possible to provide a highly reliable card connector device.
[0015]
In order to achieve the above object, according to the present invention, the first card is a wide and long information card, the second card is a narrow and short information card, and the first operating member is The tip of the cam engagement pin is switched to the first circulation groove side by being pressed by the side of the first card inserted into the card insertion portion.
[0016]
This makes it possible to mount the wide and long first card and the narrow and short second card, so that a highly practical card connector device can be provided.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
First, prior to the description of the card connector device according to the present invention, the configuration of an information card applied thereto will be described with reference to FIGS. FIG. 1 is an explanatory diagram of a first card applied to the card connector device of the present invention, and FIG. 2 is an explanatory diagram of a second card applied to the card connector device of the present invention.
[0018]
1A is a top view of the first card, FIG. 1B is a bottom view of the first card, FIG. 1C is a side view seen from the rear end side of the first card, and FIG. 1D is the first card. As can be seen from these drawings, the first card 100 is formed in a vertically long rectangular shape, and the right front corner portion is viewed from the top. A hypotenuse 101 is provided to prevent erroneous insertion into the card connector device. Further, as shown in FIGS. 1B to 1D, a thin rail 102 is formed at each of the left and right side edges by cutting the back surface into a square shape. A positioning recess 103 for restricting the mounting position of the first card 100 with respect to the card connector device is formed in part. As shown in FIGS. 1A and 1D, an identifier setting recess 104 is formed in a part of the left rail 102 as viewed from above, and the identifier 105 slides in the identifier setting recess 104. It is possible. Further, as shown in FIG. 1B, a plurality of external connection terminals (9 in the example of FIG. 1) 106 are provided in a predetermined arrangement on the front edge portion of the lower surface. These external connection terminals 106 are electrically connected to a semiconductor chip (not shown) embedded in the card, supply power to the semiconductor chip, and external electronics provided with the semiconductor chip and the card connector device. Signals are transmitted to and received from the device. The identifier 105 can be used as a write protector that switches information writing to the first card 100 to a possible state or a prohibited state, for example.
[0019]
2A is a top view of the second card, FIG. 2B is a bottom view of the second card, FIG. 2C is a side view seen from the rear end side of the second card, and FIG. 2D is the second card. As can be seen from these drawings, the second card 200 is formed in a vertically long rectangular shape, and the left front corner as viewed from above is shown in the side view. A hypotenuse 201 is provided for preventing erroneous insertion into the card connector device. Also, as shown in FIG. 2B, a plurality of external connection terminals (9 in the example of FIG. 2) 202 are provided in a predetermined arrangement on the front edge portion of the lower surface. These external connection terminals 202 are also electrically connected to a semiconductor chip (not shown) embedded in the card, and supply of power to the semiconductor chip and an external electronic device provided with the semiconductor chip and the card connector device Signals are transmitted to and received from each other. The second card is not provided with a portion corresponding to the positioning recess 103, the identifier setting recess 104, and the identifier 105 of the first card 100.
[0020]
As is clear from the comparison between FIG. 1 and FIG. 2, the width W1 of the first card 100 is slightly larger than the width W2 of the second card 200, and the length L1 of the first card 100 is the length of the second card 200. The thickness T1 of the first card 100 is slightly larger than the thickness T2 of the second card 200. The card connector device according to the present invention is characterized in that information can be transmitted and received by mounting two types of information cards having different sizes.
[0021]
Hereinafter, the configuration of the card connector device according to the embodiment will be described with reference to FIGS. 3 to 11. FIG. 3 is a structural diagram of components of the card connector device, FIG. 4 is an explanatory view of the heart cam groove, FIG. 5 is a plan view of the assembled state of the card connector device, and FIG. 6 is a plan view of the card connector device with the cover removed. 7 is a cross-sectional view taken along a line 7-7 in FIG. 5, FIG. 8 is a cross-sectional view taken along a line 8-8 in FIG. 5, and is a cross-sectional view showing a state in which the slider is moving in the card ejection direction. FIG. 8 is a cross-sectional view showing a state where the slider is moving in the card insertion direction, FIG. 10 is a cross-sectional view showing a first card insertion state of the card connector device, and FIG. It is sectional drawing which shows the 2nd card insertion state of a connector apparatus.
[0022]
As shown in FIG. 3, the card connector device according to the present embodiment includes a frame-shaped frame 1 formed of a molded body of an insulating resin, and a metal cover 2 that covers the upper surface of the frame 1. A guide member 3 set in a card insertion portion formed by attaching the cover 2 to the frame 1, a first biasing member 4 for constantly biasing the guide member 3 in the opening direction, and the guide A guide holding member 5 for holding the member 3 in a closed state, a slide member 6 slidably accommodated in the card insertion portion, a flexible printed circuit board 7 having one end connected to the slide member 6, and the slide member 6 Is held at a predetermined position on the card ejection side, and the cam engagement pin moves in the heart cam groove formed in the frame 1 in accordance with the type of the information card inserted into the card insertion portion. A first holding member (first operation member) 8 for switching the movement path, a second holding member 9 for holding the slide member 6 at a predetermined position on the card insertion side, and a card slidably attached to the frame 1 A discharge member 10, a cam engagement pin 11 having one end attached to the card discharge member 10 and the other end engaged with the heart cam groove, and dropping of the cam engagement pin 11 from the card discharge member 10. It is mainly composed of a drop-off prevention member (second operation member) 12 to be prevented and a second urging member 13 that constantly urges the card ejection member 10 in the card ejection direction.
[0023]
As shown in FIGS. 3 and 6 to 11, the frame 1 includes a bottom plate 21, first and second guide rails 22 and 23 erected along the left and right sides of the bottom plate 21, and the bottom plate 21. The bottom plate 21 includes a thick part 25 provided on the card insertion side, a thin part 26 provided on the back side, and a thin part 26. And an opening 27 opened in a part of. A guide member setting groove 28 for setting the guide member 3 is formed in a part of the thick portion 25 and the first guide rail 22 and the second guide rail 23, and both left and right ends of the guide member setting groove 28. The part is formed with a guide holding hole 29 for rotatably holding the guide member 3. On the other hand, a first terminal member 30 that is electrically connected to the external connection terminal 106 provided on the first card 100 is insert-molded in the thin portion 26. The front end portion of the first terminal member 30 is disposed above the upper surface of the thick portion 25 through the opening 27, and the rear end portion of the first terminal member 30 passes through the rear plate 24 and is outside the frame 1. Placed in.
[0024]
As shown in FIGS. 3 and 5, in the upper surface of the first guide rail 22, a storage portion 31 for the first holding member (first operation member) 8 is recessed in the rear portion of the guide member setting groove 28. In addition, a holding pin 32 of the first holding member 8 protrudes from the storage portion 31. Further, behind the storage portion 31 on the upper surface of the first guide rail 22, a storage portion 33 for the card discharge member 10, the cam engagement pin 11, the drop-off prevention member 12 and the second urging member 13 is recessed. A heart cam groove 34 with which one end of the cam engagement pin 11 is engaged is formed in the storage portion 33.
[0025]
As shown in FIG. 4 in an enlarged manner, the heart cam groove 34 includes a first circulation groove 35 in which one end of the cam engagement pin 11 moves when the first card 100 is inserted, and the second card 200 is inserted. A second circulation groove in which one end of the cam engagement pin 11 moves when the first and second 2 cycles It is composed of a communication groove 37 communicating with the annular grooves 35, 36, and the stroke of the first circulation groove 35 is formed larger than the stroke of the second circulation groove 36. That is, the first circulation groove 35 is constituted by a path of a → b → c → d → e → a, and the second circulation groove 36 is constituted by a path of a → f → g → h → e → a. . The difference between the stroke of the first circulation groove 35 (distance between ac) and the stroke of the second circulation groove 36 (distance between ag) depends on the size of the information card. The amount of protrusion of the first card 100 from the connector device and the first 2 card 200 Is set to be equal to the protrusion amount.
[0026]
On the other hand, as shown in FIGS. 3 and 6, a storage portion 38 of the guide holding member 5 is recessed on the upper surface of the second guide rail 23 on the card insertion side, and the guide holding is held in the storage portion 38. A holding pin 39 of the member 5 is projected. In addition, the storage portion 40 of the second holding member 9 is recessed in the upper surface of the second guide rail 22 on the rear plate 24 side, and the holding pin 41 of the second holding member 9 projects into the storage portion 40. It is installed.
[0027]
Furthermore, rails 102 formed on both the left and right sides of the first card 100 are provided at the boundary between the first guide rail 22 and the bottom plate 21 and at the boundary between the second guide rail 23 and the bottom plate 21. An engaging step 43 for engaging the cover 2 is formed on the outer surface of the first guide rail 22 and the outer surface of the second guide rail 23.
[0028]
As shown in FIGS. 3, 5, and 7 to 11, the cover 2 includes a rectangular top plate 44 that is sized to be attached to the upper surface of the frame 1, and both left and right sides of the top plate 44. The side plate 45 is folded from the side and the rear plate 46 is folded from the back side of the top plate 44. The card insertion slot A side of the top plate 44 is inserted with a card. And the recessed part 47 for making it easy to take out is formed. Further, the side plate 45 is provided with an engagement hole 48 for engaging an engagement protrusion 43 formed on the frame 1, and the rear plate 46 is inserted through the flexible printed circuit board 7. A hole 49 is opened. The cover 2 abuts the top plate 44 on the top surfaces of the first guide rail 22 and the second guide rail 23 of the frame 1, and the side plate 45 and the rear plate 46 on the first guide rail 22 and the second guide plate of the frame 1. The guide rail 23 and the outer surface of the rear plate 24 are brought into contact with each other, and the engagement projections 43 formed on the frame 1 are snap-engaged with the engagement holes 48 formed in the side plate 45 so as to be integrated with the frame 1.
[0029]
As a result, as shown in FIGS. 7 to 11, a card insertion portion 50 including a first card insertion slot 50 a is formed between the inner surface of the frame 1 and the inner surface of the top plate 44, and the card insertion portion 50 has an inside. The upper portion of the thick portion 25, the inner surfaces of the first and second guide rails 22 and 23, and the inner surface of the top plate 44 are used to move the first card 100 to the setting portion of the first terminal member 30. A first card guide for guiding is configured.
[0030]
As shown in FIGS. 3 and 6 to 11, the guide member 3 includes a face plate portion 51, a spring holding shaft 52 that protrudes outward from one end of the face plate portion 51, a distal end portion of the spring holding shaft 52, and It comprises a guide holding shaft 53 projecting outward from the other end of the face plate portion 51, and a spring locking piece 54 formed in an adjacent portion of the spring holding shaft 52. A second card insertion slot 55 for guiding the second card 200 and a slope 56 for facilitating the insertion of the second card 200 into the second card insertion slot 55 are formed.
[0031]
The first biasing member 4 is for constantly biasing the guide member 3 in the closing direction, and has a winding portion 4 a that can be attached to a spring holding shaft 52 formed on the guide member 3. Consists of springs. In the present embodiment, a torsion coil spring is used as the first urging member 4, but the gist of the present invention is not limited to this, and the guide member 3 can be always urged in the closing direction. Any other elastic body can be used as long as it is one.
[0032]
As shown in FIGS. 6 and 7, the guide member 3 stores the face plate portion 51 in the guide member setting groove 28 formed in the frame 1, and the guide holding shaft 53 is formed in the frame 1. It is integrated with the frame 1 by being housed in the guide holding hole 29. Further, by engaging both end portions of the first biasing member 4 mounted on the spring holding shaft 52 with the spring locking pieces 54 formed on the guide member 3 and the frame 1, respectively, in the normally closing direction. Be energized.
[0033]
As shown in FIGS. 3 and 6, the guide holding member 5 includes a torsion coil spring having a winding portion 5 a that can be attached to a holding pin 39 protruding from the upper surface of the second guide rail 23. One end of the second guide rail 23 is formed with an engaging portion 5b for engaging with a storage portion 38 that is recessed in the upper surface. Further, the other end of the winding part 5 a is engaged with a chevron-shaped pressing part 5 c that is selectively pressed by the first card 100 and a part of the guide member 3, and the guide member 3. And an engaging portion 5d that holds the valve in a closed state. As shown in FIG. 6, the guide holding member 5 is integrated with the frame 1 by attaching the winding portion 5 a to the holding pin 39 and engaging the engaging portion 5 b with a part of the storage portion 38. A pressing operation part 5 c and an engaging part 5 d are arranged in the card insertion part 50. In the present embodiment, a torsion coil spring is used as the guide holding member 5. However, the gist of the present invention is not limited to this, and the guide member 3 is moved according to the insertion operation of the first card 100. Any other elastic body can be used as long as it can be selectively opened.
[0034]
The slide member 6 is formed of a molded body of insulating resin. As shown in FIGS. 3, 6, 8, and 9, the upper plate 60, the lower plate 61, the upper plate 60, and the lower plate are provided. It has a connecting plate 62 for connecting the face plate 61 and a side plate 63 erected along one side of the lower surface plate 61, and a portion for connecting the tip portion of the side plate 63 and the lower surface plate 61 includes A hypotenuse 64 having substantially the same size and angle as the hypotenuse 101 formed at the right front corner of the first card 100 is formed. The connection plate 62 is insert-molded with a second terminal member 65 that is electrically connected to the external connection terminal 202 provided on the second card 200, and the distal end of the second terminal member 65 is formed by It is set at a predetermined position between the upper surface plate 60 and the lower surface plate 61, and the rear end portion of the second terminal member 65 is disposed outside through the connecting plate 62. Further, an engaging convex portion 66 of the first holding member (operation member) 8 protrudes from the front end portion of the side plate 63, and the rear portion of the engaging convex portion 66 has the card discharge member 10. An engaging convex portion 67 is provided so as to protrude from the rear portion of the engaging convex portion 67 and a setting concave portion 68 of the card discharge member 10 is formed. Further, an engaging recess 69 for engaging the second holding member 9 is provided on the outer surface of the slide member 6 on the side facing the second guide rail 23.
[0035]
An interval between the upper surface plate 60 and the lower surface plate 61 is set to an interval at which the second card 200 can be inserted and the external connection terminal 202 provided on the second card 200 and the second terminal member 65 can be electrically connected. ing. Therefore, when the guide member 3 is held in the closed state by the guide holding member 5, as shown in FIGS. 8 and 9, the second card insertion port 55 opened in the guide member 3 and the thick wall The upper surface of the part 25 and the inner surface of the slide member 6 constitute a second card guide part for guiding the second card 200 to the setting part of the second terminal member 65.
[0036]
The flexible printed circuit board 7 is used for connecting the second terminal member 65 to a circuit (not shown), and has one wide end connected to the rear end of the second terminal member 65 and the other end. Is led out through an insertion hole 49 provided in the cover 2.
[0037]
As shown in FIGS. 3 and 6, the second holding member 9 includes a torsion coil spring having a winding portion 9 a that can be attached to the holding pin 41 protruding from the upper surface of the second guide rail 23. One end of the second guide rail 23 is formed with an engaging portion 9b for engaging with a storage portion 40 that is recessed in the upper surface. In addition, the other end of the winding portion 9a is selectively pressed by the first card and is engaged in a mountain-shaped engagement that engages with an engagement recess 69 provided in the outer surface of the slide member 6. A portion 9c is formed. As shown in FIG. 6, the second holding member 9 is integrated with the frame 1 by attaching the winding portion 9 a to the holding pin 41 and engaging the engaging portion 9 b with a part of the storage portion 40. The engaging portion 9c is disposed in the card insertion portion 50. In this embodiment, a torsion coil spring is used as the second holding member 9, but the gist of the present invention is not limited to this, and the slide member 6 can be held at a predetermined position in the card insertion direction. Any other elastic body can be used.
[0038]
The card discharge member 10 is formed of a molded body of insulating resin, and as shown in FIG. 3, the main body in which the mounting hole 71 of the cam engagement pin 11 and the fixing portion 72 of the drop-off prevention member 12 are formed. A portion 73, a spring holding shaft 74 that holds one end of the second urging member 13, and a pressing operation portion 75 that is set in a setting recess 68 formed in the slide member 6. As shown in FIG. 6, the card discharge member 10 slidably stores the main body 73 in a storage portion 33 recessed in the upper surface of the first guide rail 22, and the slide member 6 By setting the pressing operation portion 75 in the formed setting recess 68, the frame 1 and the slide member 6 are integrated.
[0039]
As shown in FIG. 3, the cam engagement pin 11 is formed of a substantially U-shaped metal wire whose both ends are bent in the same direction. One end of the cam engaging pin 11 is rotatably inserted into a mounting hole 71 formed in the main body 73 of the card discharge member 10 and the other end is formed on the upper surface of the first guide rail 22. The groove 34 is slidably accommodated.
[0040]
The drop-off prevention member (second operation member) 12 prevents the cam engagement pin 11 from falling off, and always urges one end of the cam engagement pin 11 housed in the heart cam groove 34 in the inner direction of the frame 1. For this purpose, it is formed with a metal plate or the like having excellent elasticity. One end of the drop-off prevention member (second operation member) 12 is fixed to a fixing portion 72 formed on the main body portion 73 of the card discharge member 10 by a method such as caulking, and the other end is fixed to the card discharge member 10. The cam engagement pin 11 attached to the main body 73 is elastically contacted.
[0041]
The second urging member 13 is for constantly urging the card discharge member 10 toward the card discharge side, and a coil spring is used as shown in FIGS. One end of the second urging member 13 is mounted on a spring holding shaft 72 formed on the card discharge member 10, and the other end is in contact with the rear plate 24 of the frame 1. In this embodiment, a coil spring is used as the second biasing member 13, but the gist of the present invention is not limited to this, and the card ejection member 10 is always biased and held in the card ejection direction. If possible, any other elastic body can be used.
[0042]
The first card 100 and the second card 200 are held at a predetermined locking position by the heart cam groove 34, the card discharge member 10, the cam engagement pin 11, the drop-off prevention member (second operation member) 12, and the second biasing member 13. Locking means for locking to is configured.
[0043]
As shown in FIGS. 3 and 6, the first holding member (first operation member) 8 is a torsion having a winding portion 8 a that can be attached to a holding pin 32 protruding from the upper surface of the first guide rail 22. An engaging portion 8b is formed at one end of the coil spring to engage with a storage portion 31 that is recessed in the upper surface of the first guide rail 22. In addition, when the first card 100 is inserted into the other end of the winding portion 8 a and the mountain-shaped pressing portion 8 c that is selectively pressed by the first card 100 and the card insertion portion 50. A pin operating portion 8d for switching the moving path of the cam engaging pin 11 in the heart cam groove 34 to the first circulation groove 35 side, and an engaging portion 8e engaged with an engaging convex portion 66 formed on the slide member 6. And are formed. As shown in FIG. 6, the first holding member (first operation member) 8 has a winding portion 8 a attached to the holding pin 32 and an engaging portion 8 b engaged with a part of the storage portion 38. It is integrated with the frame 1 and the slide member 6, and the pressing portion 8 c and the engaging portion 8 e are disposed in the card insertion portion 50. In the present embodiment, a torsion coil spring is used as the first holding member (first operation member) 8. However, the gist of the present invention is not limited to this, and the first card 100 is inserted. Any other elastic body can be used as long as the slide member 6 can be selectively opened according to the movement and the movement path of the cam engagement pin 11 in the heart cam groove 34 can be switched.
[0044]
Hereinafter, an operation when the first card 100 is inserted into the card connector device configured as described above will be described with reference to FIGS. 6, 8 to 10, and 12 to 15. FIG. 12 is an explanatory diagram of an initial position of the card connector device when the first card is inserted, FIG. 13 is an explanatory diagram of a full stroke position of the card connector device when the first card is inserted, and FIG. 14 is an illustration when the first card is inserted. FIG. 15 is an explanatory view of a card lock position of the card connector device, and FIG. 15 is an explanatory view of a return position of the card connector device when the first card is inserted.
[0045]
Before the first card 100 is inserted into the card insertion portion 50, the engaging portion 5d of the guide holding member 5 is engaged with the guide member 3, as shown in FIG. As shown in FIG. 8, the guide member setting groove 28 is erected. At this time, the mountain-shaped pressing portion 5 c formed on the guide holding member 5 protrudes into the card insertion portion 50. Further, as shown in FIG. 6, the slide member 6 is moved to the card discharge side by the elastic force of the second urging member 13, and the first holding member ( The engaging portion 8e of the first operating member 8 is engaged. Thereby, the slide member 6 is stably held at a predetermined position in the card ejection direction. At this time, the second holding member 9 and the slide member 6 are disengaged, and the mountain-shaped engaging portion 9 c formed on the second holding member 9 is projected into the card insertion portion 50. ing.
[0046]
In this state, when the first card 100 is inserted into the card insertion part 50 in a predetermined direction, first, the left front corner part of the first card 100 that is not provided with the oblique side is formed into a mountain-shaped press formed on the guide holding member 5. The pressing portion 5c and the engaging portion 5d formed on the guide holding member 5 are brought into contact with the portion 5c and are discharged out of the card insertion portion 50 by the insertion force of the first card 100. As a result, the engagement between the guide member 3 and the engaging portion 5d is released, and the guide member 3 rotates about the guide holding shaft 53 as shown in FIG. An insertion space for the card 100 is formed.
[0047]
When the first card 100 is further pushed in from this state, the front side and the oblique side 101 of the first card 100 are brought into contact with the slide member 6 and the right side of the first card 100 is held first as shown in FIG. The pressing portion 8c and the engaging portion 8e formed on the first holding member (first operating member) 8 are brought into contact with a mountain-shaped pressing portion 8c formed on the member (first operating member) 8, and the first holding member (first operating member) 8 The card 100 is discharged out of the card insertion portion 50 by the insertion force of the card 100. As a result, the engagement between the slide member 6 and the first holding member (first operation member) 8 is released, and the cam operation is performed by the pin operation portion 8d formed on the first holding member (first operation member) 8. The coupling pin 11 is pressed outward, and the movement path of the cam engagement pin 11 that moves along the heart cam groove 34 is switched to the first circulation groove 35 side.
[0048]
When the first card 100 is further pushed in from this state, as shown in FIG. 13, the slide member 6, the card ejection member 10, the cam engagement pin 11, and the drop prevention member (second operation member) are inserted by the insertion force of the first card 100. ) 12 moves to the back side against the elastic force of the second urging member 13, and an engaging portion 9 b formed on the second holding member 9 is formed on the slide member 6 in the moving process of the slide member 6. When the leading end of the cam engaging pin 11 is moved from the initial position a to the full stroke position b of the first circulation groove 35, the first card 100 cannot be pushed further. become. At this time, as shown in FIG. 9, since the first terminal member 30 is exposed in front of the slide member 6, the external connection terminal 106 and the first terminal member 30 provided on the first card 100 are electrically connected. Connected.
[0049]
Thereafter, when the operator releases his hand from the first card 100, the distal end portion of the cam engagement pin 11 becomes elastic and the drop-off preventing member (second operation member) as shown in FIG. 12 automatically moves to the card lock position c of the first circulation groove 35, and the first card 100 is stably held at the position. Therefore, the operator can stably record and reproduce information on the first card 100.
[0050]
After the recording / reproducing operation is finished, when the operator pushes the first card 100 again and then releases the first card 100, as shown in FIG. The elastic force of the member 13 and the elastic force of the drop-off prevention member (second operating member) 12 automatically move on the heart cam groove 34 in the order of c → d → h → e, and the slide member 6 and the second holding member 9 When the engagement is released, the first card 100, the slide member 6, the card discharge member 10, the cam engagement pin 11 and the drop prevention member (second operation member) 12 are discharged by the elastic force of the second biasing member 13. Move in the direction. Then, when the slide member 6 moves in the card ejection direction, the connection between the external connection terminal 106 provided on the first card 100 and the first terminal member 30 is restored.
[0051]
Next, when the operator pulls out the first card 100 from the card connector device, the engagement between the first card 100 and the first holding member (first operating member) 8 is released, so the first holding member (first (1 operation member) 8 engaging portion 8e is engaged with an engaging convex portion 66 formed on slide member 6, and cam engaging pin 11 passes through communication groove 37 and returns to initial position a. The initial state shown in FIG. Further, since the engagement between the first card 100 and the guide member 3 is released, the guide member 3 is rotated in the direction to close the card insertion portion 50 by the elastic force of the first biasing member 4, and the guide member 3. Is engaged with the engaging portion 5d of the guide holding member 5 in a state where the guide is vertically raised.
[0052]
When the first card 100 is inserted in the wrong direction into the card insertion portion 50, the corner portion of the first card 100 comes into contact with the hypotenuse 64 formed on the slide member 6. The card 100 is not inserted up to the full stroke position, and inconvenience due to post-insertion is prevented in advance. When the first card 100 is inserted upside down, the step 42 formed at the boundary between the bottom plate 21 of the frame 1 and the guide rails 22 and 23 is in contact with the front side of the first card 100. Since they are in contact with each other, the first card 100 is not inserted into the card insertion portion 50, and inconvenience due to post-insertion is prevented in advance.
[0053]
Next, operations when the second card 200 is inserted into the card connector device configured as described above will be described with reference to FIGS. 6, 8, 11, and 16 to 19. 16 is an explanatory diagram of the initial position of the card connector device when the second card is inserted, FIG. 17 is an explanatory diagram of the full stroke position of the card connector device when the second card is inserted, and FIG. 18 is an illustration when the second card is inserted. FIG. 19 is an explanatory view of the card lock position of the card connector device, and FIG. 19 is an explanatory view of the return position of the card connector device when the second card is inserted.
[0054]
As shown in FIG. 8, the guide member 3 is erected in the guide member setting groove 28, and the slide member 6 is moved to the card discharge side by the elastic force of the second urging member 13 as shown in FIG. When the second card 200 is inserted into the card insertion portion 50 in the state where the second card 200 is inserted, the second card 200 is inserted through the second card insertion port 55 formed in the face plate portion 51 of the guide member 3 in a predetermined direction. To do.
[0055]
The second card 200 inserted from the second card insertion slot 55 does not engage with the guide holding member 5 and the first holding member (first operation member) 8, and as shown in FIG. Abutted.
[0056]
When the second card 200 is further pushed in from this state, as shown in FIG. 17, the card ejection member 10, the cam engagement pin 11, and the drop-off prevention member 12 are brought into contact with the second urging member 13 by the insertion force of the second card 200. The second card 200 is inserted into the slide member 6 against the elastic force, and the tip of the cam engagement pin 11 is moved from the initial position a to the full stroke position f of the second circulation groove 36. It is impossible to push the second card 200 any more when it has moved to. At this stage, the second terminal member 65 provided on the slide member 6 and the external connection terminal 202 provided on the second card 200 are electrically connected.
[0057]
Thereafter, when the operator releases his hand from the second card 200, the distal end portion of the cam engagement pin 11 is elastic and the drop-off preventing member (second operation member) as shown in FIG. 12 is automatically moved to the card lock position g of the second circulation groove 36 by the elastic force of 12, and the second card 200 is stably held at the position. Therefore, the operator can stably record and reproduce information on the second card 200.
[0058]
After the recording / reproducing operation is finished, when the operator pushes the second card 200 again and then releases the second card 200, as shown in FIG. Due to the elastic force of the member 13 and the elastic force of the drop-off preventing member (second operation member) 12, the heart cam groove 34 is automatically moved from g → h → e, and the second card 200, the card ejection member 10, and the cam engagement. The pin 11 and the drop-off prevention member (second operation member) 12 are moved in the card discharge direction by the elastic force of the second urging member 13. Then, when the card discharge member 10 moves in the card discharge direction, the connection between the external connection terminal 202 provided on the second card 200 and the second terminal member 65 is restored.
[0059]
Finally, when the operator pulls out the second card 200 from the card connector device, the cam engaging pin 11 passes through the communication groove 37 and returns to the initial position a, and the initial state shown in FIG. 16 is obtained.
[0060]
The card connector device according to this embodiment includes a first terminal member 30, a second terminal member 65, an upper surface of the thick portion 25, the first and second guide rails 22, in the card insertion portion 50. 23, the first card guide portion configured by the inner surface of the top plate 44 and the inner surface of the top plate 44, the second card guide portion configured by the second card insertion port 55, the upper surface of the thick portion 25, and the inner surface of the slide member 6. Since the first card 100 wider than the one card insertion part 50 and the second card 200 narrower and thinner can be inserted separately, the card insertion part 50 can be shared. A card connector device capable of mounting two types of information cards can be manufactured in a small size. In addition, since many parts other than the first terminal member 30 and the second terminal member 65 can be shared, the cost of the card connector device can be reduced compared to the case where two types of card connector devices are provided. .
[0061]
In addition, the card connector device according to the present embodiment includes the slide member 6 in the card insertion portion 50, sets the second terminal member 65 on the slide member 6, and connects the first terminal member 30 to the slide member. Since it is set within the movement range of 6, the two terminal members 30, 65 can be arranged one above the other, and the card connector can be compared with the case where the two terminal members are arranged with their positions shifted back and forth or left and right. The plane area of the device can be reduced.
[0062]
Further, the card connector device according to the present embodiment is configured such that the slide member 6 abuts the front end portion of the first card 100 and the external connection terminal 106 and the second terminal member 65 provided on the first card 100. Since the card abutting portion (tip portions of the upper surface plate 60 and the lower surface plate 61) for preventing connection is provided, the slide member 6 can be reliably operated in accordance with the insertion / extraction operation of the first card 100. The external connection terminal 106 provided on the 100 and the first terminal member 30 can be reliably connected, and the external connection terminal 106 provided on the first card 100 and the second terminal member 65 are securely connected. Can be prevented. Further, since the slide member 6 is provided with the second card guide portion (the inner surface of the upper surface plate 60, the lower surface plate 61, the connecting plate 62, and the side plate 63) for guiding the second card 200 to the connection position with the second terminal member 65. The external connection terminal 202 provided on the second card 200 and the second terminal member 65 can be reliably connected, and the reliability of the card connector device can be improved.
[0063]
Further, the card connector device according to the present embodiment includes the first and second holding members 8 and 9 for holding the slide member 6 at predetermined positions in the card ejection direction and the card insertion direction, respectively. Two types of information cards can be securely attached to the card connector device, and the reliability of the card connector device can be improved.
[0064]
Further, in the card connector device according to the present embodiment example, since one end of the flexible printed circuit board 7 is electrically connected to one end of the second terminal member 65, the second terminal member 65 and the second terminal member 65 are connected regardless of the operation of the slide member 6. The electronic circuit provided in the electronic device can be always connected, and disconnection, poor contact, and the like are unlikely to occur, and the reliability of the card connector device can be improved.
[0065]
Further, the card connector device according to this embodiment is configured so that the operation of the slide member 6 and the card discharge member 10 provided in the card insertion portion 50 is related to the heart cam groove formed in the frame 1 and one end of the groove. Since the restriction is made by the cam engaging pin 11 to be combined, the first card 100 and the second card 200 can be securely held and discharged, and the reliability of the card connector device can be improved. it can.
[0066]
Further, the card connector device according to the present embodiment includes the position of the end portion of the first card 100 locked at the first lock position and the position of the end portion of the second card 200 locked at the second lock position. Since the lock means for switching between the lock position of the first card 100 and the lock position of the second card 200 is provided so that the two cards are in the same position, two types of information cards having different lengths can be attached to the card connector device. Provided is a card connector device that can enhance the convenience of use of an electronic device and can align the positions of the end portions of each mounted information card and maintain good operability of the electronic device. Can do.
[0067]
In addition, the card connector device according to the present embodiment includes a card discharge member 10 that moves in the card insertion direction when the locking means is pressed by the first card 100 or the second card 200, and is relative to the card discharge member 10. A heart cam groove 34 formed in the member to be moved to the card, a cam engaging pin 11 having one end rotatably attached to the card discharge member 10 and the other end engaged with the heart cam groove 34, and the card discharge member 10. Is configured with the second biasing member 13 that constantly biases the card in the card discharge direction, so that two types of information cards having different lengths can be locked in place with a simple configuration, and the mounted information card is automatically Thus, a lock member that can be discharged automatically can be configured, and a high-performance card connector device can be provided at low cost.
[0068]
Further, in the card connector device according to this embodiment, the first circulation groove 35 and the second circulation groove 36 are formed in the heart cam groove 34, and the first lock position is formed in a part of the first circulation groove 35. Since the distance between c and the second lock position g formed in a part of the second circulation groove 36 is set to the difference in length between the first card 100 and the second card 200, two types of lengths can be obtained with a simple configuration. Information cards with different lengths can be locked in place, and a high-performance card connector device can be provided at low cost.
[0069]
Further, the card connector device according to the present embodiment communicates the first circulation groove 35 and the second circulation groove 36 via the communication groove 37, so that the configuration of the heart cam groove 34 can be integrated. The card connector device can be miniaturized. Also, a first holding member (first operation member) 8 that switches the tip end portion of the cam engagement pin 11 to the first circulation groove side 35 when the first card 100 is inserted into the card insertion portion 50, and a card insertion portion. 50 is provided with a drop-off prevention member (second operation member) 12 that switches the tip end portion of the cam engagement pin 11 to the second circulation groove 36 side when the second card 200 is inserted into 50. Regardless of the type, the cam engaging pin 11 can be reliably operated, and a highly reliable card connector device can be provided.
[0070]
In addition, the card connector device according to this embodiment can be mounted on the wide and long first card 100 and the narrow and short second card 200, so that the card connector device having high practicality can be used. It can be.
[0071]
In the card connector device according to this embodiment, the card insertion portion 50 into which the first card 100 having a large thickness and the second card 200 having a small width can be individually inserted, and the second card 200 can be inserted. The guide member 3 in which the second second card insertion slot 55 through which the first card 100 cannot be inserted is opened, and the first terminal member 30 electrically connected to the external connection terminal 106 provided in the first card, Since the second terminal member 65 that is electrically connected to the external connection terminal 202 provided on the second card 200 is provided, the single card connector device has a wide and thick first card 100 and a narrow and thin wall. The second card 200 can be mounted, and the versatility of the card connector device and thus the electronic device provided with the card connector device can be enhanced. The guide member 3 is held in the first card insertion slot 50a when the second card 200 is inserted, and is opened when the first card 100 is inserted to open the first card insertion slot 50a. Since it was provided, the first card 100 or the second card 200 can be securely attached to the first terminal member 30 or the second terminal member 65, and the reliability of this type of card connector device can be improved. .
[0072]
Further, the card connector device according to the present embodiment is engaged by rotatably attaching the guide member 3 to the left and right side portions of the card insertion portion 50 and inserting the first card 100 into the card insertion portion 50. Since the card insertion portion 50 is held at the closing position by the guide holding member 5 to be released, the guide member 3 is held in the card insertion portion 50 in a closed state when not in use, and into the card insertion portion 50. Intrusion of foreign matter such as dust can be suppressed, and the durability of the card connector device can be enhanced.
[0073]
Further, in the card connector device according to this embodiment, the guide member 3 is always urged by the first urging member 4 in the direction in which the card insertion portion 50 is closed, and the card insertion portion 50 is urged by the guide holding member 5. Since the guide member 3 can be reliably held when the second card 200 is inserted into the card insertion portion 50, the second card to the second second card insertion slot 55 is held. 200 can be inserted easily and reliably, and the reliability and operability of this type of card connector device can be improved.
[0074]
Moreover, since the card connector device according to the present embodiment is provided with the inclined surface portion 56 for facilitating the insertion of the second card 200 into the second second card insertion slot 55 on the outer surface of the guide member 3, The second card 200 can be easily and reliably inserted into the second second card insertion slot 55, and the reliability and operability of this type of card connector device can be improved.
[0075]
【The invention's effect】
As described above, the card connector device of the present invention is When the first card is inserted into the card insertion portion, the first operating member for switching the tip of the cam engagement pin to the first circulation groove and engaging the tip of the cam engagement pin with the first circulation groove is provided. In addition, when the second card is inserted into the card insertion portion, the tip end portion of the cam engagement pin is engaged with the second circulation groove side, so that the cam engagement is performed according to the type of the inserted information card. The tip of the pin can be reliably engaged with a predetermined circulation groove, improving the reliability of the card connector device be able to.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a first card.
FIG. 2 is an explanatory diagram of a second card.
FIG. 3 is a component configuration diagram of the card connector device according to the embodiment.
FIG. 4 is an explanatory diagram of a heart cam groove.
FIG. 5 is a plan view of an assembled state of the card connector device according to the embodiment.
FIG. 6 is a plan view of the card connector device according to the embodiment with a cover removed.
7 is a cross-sectional view taken along a line 7-7 in FIG.
8 is a cross-sectional view taken along a line 8-8 in FIG. 5, showing a state in which the slider is moving toward the card ejection side.
9 is a cross-sectional view taken along a line 8-8 in FIG. 5, showing a state in which the slider is moved to the card insertion side.
FIG. 10 is a cross-sectional view showing a first card insertion state of the card connector device according to the embodiment.
FIG. 11 is a cross-sectional view showing a second card insertion state of the card connector device according to the embodiment.
FIG. 12 is an explanatory diagram of an initial position of the card connector device when the first card is inserted.
FIG. 13 is an explanatory diagram of a full stroke position of the card connector device when the first card is inserted.
FIG. 14 is an explanatory diagram of a card lock position of the card connector device when the first card is inserted.
FIG. 15 is an explanatory diagram of a return position of the card connector device when the first card is inserted.
FIG. 16 is an explanatory diagram of an initial position of the card connector device when the second card is inserted.
FIG. 17 is an explanatory diagram of a full stroke position of the card connector device when the second card is inserted.
FIG. 18 is an explanatory diagram of a card lock position of the card connector device when the second card is inserted.
FIG. 19 is an explanatory diagram of a return position of the card connector device when the second card is inserted.
[Explanation of symbols]
1 frame
2 Cover
3 Guide members
4 First biasing member
5 Guide holding member
6 Slide member
7 Flexible printed circuit boards
8 First holding member (first operating member)
9 Second holding member
10 Card ejection member
11 Cam engagement pin
12 Fall-off prevention member (second operation member)
13 Second biasing member

Claims (4)

A card insertion part capable of individually inserting a long first card and a short second card; a first terminal member electrically connected to an external connection terminal provided on the first card; and the second card A second terminal member electrically connected to the provided external connection terminal; and the first card is locked at a first lock position electrically connected to the first terminal member and the second card is Locking means that locks at a second locking position electrically connected to the second terminal member, and the locking means is pressed by the first card or the second card inserted into the card insertion portion. A card ejection member that moves in the card insertion direction, a heart cam groove formed in a member that is moved relative to the card ejection member, and one end rotatably attached to the card ejection member. And a biasing member that constantly biases the card ejection member in the card ejection direction, and the first card is inserted into the card insertion portion in the heart cam groove. A first circulation groove in which the tip end portion of the cam engagement pin moves, and a second circulation groove in which the tip end portion of the cam engagement pin moves when the second card is inserted into the card insertion portion, The first lock position is provided in a part of the first circulation groove, the second lock position is provided in a part of the second circulation groove, and the first circulation groove and the first circulation groove are formed. A first operating member that communicates with the two circulation grooves via the communication groove and switches the tip of the cam engagement pin to the first circulation groove side when the first card is inserted into the card insertion portion; is provided, said locking means, said first b By setting click position and the distance of the second locked position to the difference in length of the second card to the first card, and the position of the distal end of the locked first card in the first locking position The second card locked at the second lock position is configured to be in the same position as the end of the second card, and when the first card is inserted, the first card is moved to the first operation. When the second card is inserted, the lock position of the lock means is switched to the first lock position by operating the means so that the tip of the cam engagement pin moves in the first circulation groove. The card connector device is characterized in that the locking position of the locking means is switched to the second locking position by the tip of the cam engaging pin moving in the second circulation groove . The first card is a wide and long information card, the second card is a narrow and short information card, and the first operating member is inserted into the card insertion portion. 2. The card connector device according to claim 1, wherein the tip end portion of the cam engaging pin is switched to the first circulation groove side by being pressed by the side of the first side . 3. The card connector device according to claim 1, wherein the path constituting the first circulation groove and the path constituting the second circulation groove share only an initial position. 4. . The tip end portion of the cam engagement pin moves to the first circulation groove after moving to the first circulation groove side within the initial position by the first operation member. Card connector device.

Images