JP4529239B2 - IC card recording and / or reproducing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an IC card recording and / or reproducing apparatus for storing a plurality of IC cards in a state in which a label attached to the IC card is visible from the outside.
[0002]
[Prior art]
Conventionally, an IC card recording and / or reproducing device using a semiconductor memory such as a flash memory as a storage element is provided with an IC card insertion / removal port on the operation surface of the device main body, and is inserted into the device main body from the insertion / removal port. A loading mechanism is provided for loading the IC card to the recording / reproducing position. Further, in a recording and / or reproducing apparatus in which a plurality of IC cards can be mounted, a plurality of insertion / removal openings are provided, and a loading mechanism is provided corresponding to the insertion / removal opening. In order to confirm the contents recorded on the IC card by the user with this type of recording and / or playback device, the IC card attached to the main body of the device is once taken out from the main body of the device and attached to the label attached to the IC card. This is done by checking the described contents or by reading data from an IC card attached to the apparatus main body and checking the data read by the display unit provided in the apparatus main body.
[0003]
[Problems to be solved by the invention]
However, in the recording and / or reproducing apparatus described above, in order to confirm the recorded contents of the IC card inserted in the apparatus main body, the IC card must be taken out from the apparatus main body, which is troublesome. In addition, in order to confirm the recorded contents of the IC card, it is troublesome to read the data of the IC card mounted on the apparatus main body and display the contents on the display unit.
[0004]
Further, when the IC card is taken out from the main body every time the recorded content of the IC card mounted on the main body is checked, the contact between the connection terminal of the connector on the recording and / or reproducing apparatus side and the terminal portion of the IC card. Will be repeated, and the terminal portion will be quickly damaged by friction between the terminal portions.
[0005]
Therefore, the present invention provides a record of an IC card that can improve operability by inserting a plurality of IC cards in a state in which the description content of a label attached to the IC card can be visually recognized. An object is to provide a playback device.
[0006]
[Means for Solving the Problems]
  In order to solve the above-described problems, an IC card recording and / or reproducing apparatus according to the present invention includes a substantially plate-like IC card that is provided in plural on any surface of the apparatus body and has a built-in semiconductor memory. A plurality of storage means for storing the label attached to the IC card so as to face the outside, a transmission / reception means for transmitting / receiving data to / from the IC card, and an IC stored in the storage means. Holding means for holding the card in the storage means;Moving means for moving the storing means between an attaching / detaching position for attaching / detaching the IC card and a recording / reproducing position for recording or reproducing data;Is provided.Further, the holding means is provided in the storage means, provided on the apparatus main body side, a holding member that rotates between a holding position for holding the IC card stored in the storage means and a non-holding position of the IC card, And a cam portion that rotates the holding member to the holding position when the storage means moves to the recording / reproducing position.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an IC card recording / reproducing apparatus to which an IC card recording / reproducing apparatus according to the present invention is applied will be described with reference to the drawings.
[0009]
This recording / reproducing apparatus uses an IC card 1 as shown in FIGS. The IC card 1 includes a substantially plate-like casing 2 that constitutes a memory body molded with synthetic resin, and the inside of the casing 2 is 4 megabytes (hereinafter also simply referred to as MB) or more, for example, 4 MB. Semiconductor memory devices such as flash memories having large storage capacities of 16 MB, 32 MB, 64 MB, and 128 MB are provided. The IC card 1 has, for example, a short side length W as shown in FIG.₁Is approximately 21.45 mm, the length L of the long side₁Is about 50mm, thickness D₁Is formed in a substantially rectangular shape that is approximately 2.8 mm.
[0010]
As shown in FIGS. 1 and 2, a terminal portion 3 is formed on the front surface 2a side, which is one short side of the housing 2 constituting the IC card 1, so as to extend from the front surface 2a to the bottom surface 2b. Yes. The terminal portion 3 is provided with a plurality of electrodes 3b separated from each other by a partition wall 3a. The reading or writing operation of information with respect to the memory element provided in the housing 2 is performed via the electrode 3 b provided in the terminal portion 3. Further, the terminal portion 3 has an engagement recess 3c defined by a partition wall 3a, and the electrode 3b is disposed on the bottom surface of the engagement recess 3c, so that it is protected from direct contact with fingers and the like. In addition, the electrode 3b is divided by the engagement recessed part 3c, and 10 pieces (3b₁~ 3b_Ten) Is provided.
[0011]
Here, the electrode 3b₁~ 3b_TenAs shown in FIG. 3, as shown in FIG.₁And electrode 3b_TenIs the detection voltage V_SSUsed as a terminal, electrode 3b₂Is used as an input terminal for the serial protocol bus state signal BS, and the electrode 3b_ThreeAnd electrode 3b₉Is the power supply voltage V_CCUsed as a terminal, electrode 3b_FourIs used as a data terminal, that is, an input / output terminal of a serial protocol data signal, and the electrode 3b_FiveAnd electrode 3b₇Is used as a reserve (spare) terminal, and the electrode 3b₆Is used as a detection terminal for detecting whether or not the IC card 1 is attached to the recording / reproducing apparatus, and the electrode 3b₈Are used as input terminals for the serial clock SCLK.
[0012]
In addition, as shown in FIGS. 1 and 2, one corner portion on the front surface 2a side where the terminal portion 3 of the housing 2 is formed has an insertion direction into the recording / reproducing apparatus cut out in a substantially arc shape. A notch 4 is shown. As shown in FIG. 2, an erroneous insertion preventing groove 5 that opens the bottom surface 2 b side of the housing 2 is continuous with the notch portion 4 on one side surface 2 c on the side where the notch portion 4 of the housing 2 is formed. Is formed. When the IC card 1 is attached to the recording / reproducing apparatus, the notch 4 and the erroneous insertion preventing groove 5 regulate the insertion direction with respect to the recording / reproducing apparatus to prevent erroneous insertion.
[0013]
On the bottom surface 2 b side of the housing 2, there is provided an erroneous recording prevention switch 6 that is located in the vicinity of the terminal portion 3 and prevents an information signal from being erroneously recorded in the semiconductor memory. The erroneous recording prevention switch 6 is connected to an operator in the housing 2 and enables recording of an information signal when slid to one side, and prevents a new information signal from being overwritten when slid to the other side. ing. Further, on one side surface 2c of the housing 2, when inserted into the recording / reproducing apparatus, the side face 2c engages with an elastic engagement piece provided on the recording / reproducing apparatus side to prevent the omission from the recording / reproducing apparatus. A recess 7 is formed. In addition, an engagement concave portion 8 for detecting attachment is formed in a substantially central portion on the other side surface 2d side of the housing 2. The engagement recess 8 detects whether or not the IC card 1 is attached to the recording / reproducing apparatus by engaging with a detection unit provided on the recording / reproducing apparatus side. Further, an insertion guide groove 13 is provided on the terminal portion 3 side of the other side surface 2 d of the housing 2. The insertion guide groove 13 guides insertion of the IC card 1 and prevents erroneous insertion when inserted into the recording / reproducing apparatus.
[0014]
As shown in FIGS. 1 and 2, a label attaching portion 9 is provided on the housing 2 of the IC card 1 from the plane 2 e side to the back surface 2 f and further to the bottom surface 2 b side. The label adhering portion 9 is configured by forming a concave portion in a portion extending from the flat surface 2e side of the housing 2 to the back surface 2f and further extending to the bottom surface 2b. The label sticking part 9 is formed to a depth at which the label 10 does not protrude from the outer peripheral surface of the housing 2 or is flush with the label 10 when the label 10 is stuck. Moreover, the plane 2e side part of the label sticking part 9 is provided from the back surface 2f side of the housing | casing 2 to the vicinity of the front surface 2a side, as shown in FIG. The label 10 attached to the label attaching unit 9 is provided with a display indicating a model name that can be used for the IC card 1 and recorded contents recorded on the IC card 1.
[0015]
The IC card 1 as described above uses a FAT (file allocation table) system as a data recording or reproducing system. The writing speed of the IC card 1 is 1500 KB / sec to 330 KB / sec, the reading speed is 2.45 MB / sec, the writing unit is 512 bytes, and the erase block size is 8 KB or 16 KB. is there. Also, the power supply voltage V_CCIs 2.7 to 3.6 V, and the serial clock SCLK is a maximum of 20 MHz.
[0016]
The circuit configuration of such an IC card 1 will be described. As shown in FIG. 3, the IC card 1 includes a flash memory 11 in which data is recorded, and a control unit that controls writing or reading of data with respect to the flash memory 11. 12.
[0017]
The flash memory 11 stores data such as moving image data, still image data, audio data, control data, processing data processed by a computer, and the like supplied from the recording / reproducing apparatus.
[0018]
The control unit 12 includes a memory controller 12a that controls writing of data to the flash memory 11 or reading of data from the flash memory 11, a register 12b that has various parameters for writing or reading data, and temporarily stores data. A page buffer 12c for storing data and a serial interface 12d for exchanging data with the recording / reproducing apparatus. The memory controller 12a transmits data between the flash memory 11 and the page buffer 12c based on the parameters set in the register 12b.
[0019]
The memory controller 12a of the control unit 12 has an electrode 3b₂To serial protocol bus state signal BS, electrode 3b₈From the serial clock SCLK. When writing data to the flash memory 11, the memory controller 12a uses the electrode 3b in accordance with the serial protocol bus state signal BS and the serial clock SCLK._FourIs temporarily stored in the page buffer 12c via the serial interface 12d, and then the data is stored in the flash memory 11. When reading data stored in the flash memory 11, the memory controller 12a reads data from the flash memory 11 to the page buffer 12c in accordance with the serial protocol bus state signal BS and the serial clock SCLK, and then via the serial interface 12d. Electrode 3b_FourTo the recording / playback device. Also, the detection voltage V_SSThe electrode 3b₆The recording / reproducing apparatus supplies the electrode 3b by the resistor R.₆Is detected to detect whether or not the IC card 1 is securely mounted.
[0020]
Next, a recording / reproducing apparatus 20 using the above IC card 1 as a recording medium will be described with reference to the drawings. The recording / reproducing apparatus 20 is a stationary apparatus as shown in FIG. The recording / reproducing apparatus 20 has a substantially rectangular apparatus main body 21 to which a speaker, a disk recording / reproducing apparatus, and the like are connected. In the apparatus main body 21, mounting portions 22a to 22f on which the IC card 1 serving as a recording medium is mounted are provided in a matrix on an upper surface 21a constituting the top plate. That is, the mounting portions 22a to 22f are provided on the upper surface 21a that is the position where the IC card 1 is most easily attached and detached and the IC card 1 is easily attached and detached. The IC card 1 is mounted on the mounting portions 22a to 22f. In the example shown in FIG. 4, the mounting portions 22 a to 22 f are provided side by side in a vertical and horizontal manner. Details of the mounting portions 22a to 22f will be described later.
[0021]
Further, the apparatus main body 21 is provided with a display unit 23 made of a liquid crystal display panel or the like on a front surface 21b serving as an operation surface. For example, when audio data is read from the IC card 1, a message such as information related to contents such as a title of the audio data and operation guide information is displayed on the display unit 23.
[0022]
  Further, an electroacoustic transducer is incorporated in the front surface 21b of the apparatus main body 21.HeadphoneAre connected to a headphone terminal 24 and a microphone terminal 25 to which a microphone for collecting sound is connected. For example, when a headphone is connected to the headphone terminal 24, the user can listen to audio data recorded on the IC card 1, and when a microphone is connected to the microphone terminal 25, the user can Sound can be recorded on the IC card 1.
[0023]
Further, a line output terminal 26 and a line input terminal 27 to which external devices such as a speaker and an optical disk recording / reproducing apparatus are connected are provided on the front surface 21b of the apparatus main body 21. A digital input terminal 28 is also provided. When a speaker is connected to the line output terminal 26, audio data recorded on the IC card 1 can be heard from the speaker. When an optical disk recording / reproducing device is connected, the audio data recorded on the IC card 1 is read from the optical disk. It can be dubbed onto a recordable optical disc mounted on the recording / reproducing apparatus. When an optical disc recording / reproducing apparatus is connected to the line input terminal 27, data such as music data recorded on an optical disc mounted on the optical disc recording / reproducing apparatus can be dubbed to the IC card 1. Further, when a digital output compatible device such as an optical disk recording / reproducing device is connected to the digital input terminal 28 by an optical cable or the like, digital data of the optical disk can be digitally dubbed to an IC card.
[0024]
A USB (Universal Serial Bus) connector 29 is provided on the front surface 21 b of the apparatus main body 21. The USB connector 29 is connected to, for example, a computer having a USB interface, and can record computer processing data on the IC card 1 and read data recorded on the IC card 1 to the computer. Of course, the apparatus main body 21 may be provided with a small computer system interface (SCSI) connector, a RS232C (Recommendation Standard 232C) connector, an IEEE (Institute of Electrical and Electronics Engineers) 1394 connector, or the like.
[0025]
An operation unit 31 is provided on the front surface 21 b of the apparatus main body 21. The operation unit 31 includes a power button for controlling on / off of the power, a playback button for reproducing data recorded on the IC card 1, a recording button for recording data on the IC card 1, and a volume for adjusting the volume. The button includes an edit button for editing data recorded on the IC card 1, a menu selection button for selecting an operation menu of the apparatus main body 21, and the like. Such an operation signal from the operation unit 31 is input to the CPU, and the CPU executes a function corresponding to the operation signal.
[0026]
Further, the apparatus main body 21 is provided with a power connector 32 for supplying power to the apparatus main body 21. The apparatus main body 21 uses a commercial AC power supply as an operating power supply. Of course, a primary battery or a secondary battery may be used as the operating power supply.
[0027]
  By the way, the mounting portions 22a to 22f (hereinafter also simply referred to as the mounting portion 22) provided on the upper surface 21a of the apparatus main body 21 described above are the easiest to insert and remove the IC card 1 as shown in FIG. It is provided on the upper surface 21a and is provided in a matrix. In the example shown in FIG. 4, six mounting portions 22 are provided so that the IC cards 1 are arranged in a matrix. This mounting part22As shown in FIG. 5, the specific configuration of the storage unit 36 includes a storage member 36 that stores the IC card 1 and a guide recess 37 in which the storage member 36 is movably stored.
[0028]
As shown in FIG. 5, the storage member 36 that stores the IC card 1 is formed to have substantially the same size as the bottom surface 2 b of the IC card 1, and a support plate 41 on which the IC card 1 is placed, A connector 42 that is provided on one end side in the longitudinal direction and into which the terminal portion 3 of the IC card 1 placed on the support plate 41 is inserted, and a support plate 41 of the IC card 1 that is provided on the other end side of the support plate 41. And an insertion guide portion 43 that guides the insertion into the.
[0029]
The support plate 41 on which the IC card 1 is placed is formed in a substantially rectangular shape having substantially the same size as the bottom surface 2 b of the IC card 1. Attachment plates 44 and 44 for attaching connectors 42 serving as transmission / reception means for transmitting / receiving data to / from the control circuit of the apparatus main body 21 are provided on one end side of the support plate 41 and on both side edges in the longitudinal direction.
[0030]
The connector 42 attached to the attachment plates 44, 44 is formed in a substantially rectangular shape, and an insertion opening 45 for inserting the terminal portion 3 of the IC card 1 into the inside of the connector 42 is provided on the front surface. Further, on the bottom surface inside the connector 42, the electrode 3b constituting the terminal portion 3 is provided.₁~ 3b_TenConnection terminal 46 electrically connected to₁~ 46_TenIs provided. Connection terminal 46₁~ 46_TenIs an electrode 3b constituting the terminal part 3 of the IC card 1₁~ 3b_TenIt is provided corresponding to the number of. These connection terminals 46₁~ 46_TenIs formed by bending in an approximately L shape, and the bent portion protrudes upward to form the electrode 3b of the IC card 1.₁~ 3b_TenIt is provided so as to be elastically displaced by being pressed. Connection terminal 46₁~ 46_TenWhen the IC card 1 is inserted into the storage member 36, the IC card 1 enters from the opening side of the engaging recess 3c constituting the terminal portion 3 of the IC card 1, and the bent portion is the electrode 3b.₁~ 3b_TenThe electrode 3b by being in contact with the electrode 3b₁~ 3b_TenConnect electrically. Although not shown, the connection terminal 46₁~ 46_TenAre connected to the electric circuit of the apparatus main body 21 by a flexible printed circuit board.
[0031]
Here, the connection terminal 46₁~ 46_TenThe connection terminal 46 will be described.₁And connection terminal 46_TenAs shown in FIG. 14, the detection voltage V_SSTerminal 3b, electrode 3b₁And electrode 3b_TenIs electrically connected to the connection terminal 46.₂Is an input terminal for the serial protocol bus state signal BS, and the electrode 3b₂Is electrically connected to the connection terminal 46._ThreeAnd connection terminal 46₉Is the power supply voltage V_CCElectrode 3b_ThreeAnd electrode 3b₉Is electrically connected to the connection terminal 46._FourIs a data terminal, that is, an input / output terminal for a serial protocol data signal, and the electrode 3b_FourIs electrically connected to the connection terminal 46._FiveAnd connection terminal 46₇Is a reserve (spare) terminal and electrode 3b_FiveAnd electrode 3b₇Is electrically connected to the connection terminal 46.₆Is a detection terminal for detecting whether or not the IC card 1 is attached to the recording / reproducing apparatus, and the electrode 3b₆Is electrically connected to the connection terminal 46.₈Is an input terminal of the serial clock SCLK and the electrode 3b₈Is electrically connected.
[0032]
Further, as shown in FIG. 5, a guide piece 47 engaged with the insertion guide groove 13 of the IC card 1 is provided on one side of the connector 42, and the IC card 1 is prevented from falling off on the other side. An elastic engagement piece 48 that is engaged with the concave portion 7 is provided. When the terminal portion 3 of the IC card 1 is inserted from the insertion port 45, the guide piece 47 is engaged with the insertion guide groove 13 to guide the insertion, and the elastic engagement piece 48 is the IC card 1 When the IC card 1 is stored in the storage member 36, the IC card 1 is prevented from being shifted from the storage position by being engaged with the drop-out preventing recess 7.
[0033]
The connector 42 as described above is connected to the engaging recess 3c of the terminal portion 3 when the IC card 1 is inserted.₁~ 46_TenIs engaged, and the elastic engagement piece 48 is engaged with the recess 7 for preventing the dropout, whereby the IC card 1 is held in the storage position.
[0034]
An insertion guide portion 43 for inserting the IC card 1 is provided integrally with the support plate 41 on the other side of the support plate 41 facing the connector 42. As shown in FIG. 7, the insertion guide portion 43 is provided so as to be inclined toward the insertion side of the IC card 1. The IC card 1 is inserted into the support plate 41 so that the end on the terminal portion 3 side abuts against the inclined surface of the insertion guide portion 43 and slides toward the support plate 41 from the insertion guide portion 43.
[0035]
As shown in FIGS. 5 and 6, the guide recess 37 provided on the upper surface 21 a of the apparatus main body 21 in which the storage member 36 as described above is stored has a short side dimension in the short side direction of the storage member 36. It is formed so as to be substantially the same as the dimension, and is formed such that the dimension in the longitudinal direction is longer than the dimension in the longitudinal direction of the storage member 36. It is formed so that it can move in the A direction.
[0036]
At both side edges in the longitudinal direction of the guide recess 37, notches 49 and 50 for taking out are provided so that the taking out operation of the IC card 1 can be easily performed. The notches 49 and 50 are continuous with the side edges in the longitudinal direction of the guide recess 37 and are inclined between the inclined portions 51 and 52 provided to be inclined outward and the inclined portions 51 and 52. It is comprised from the horizontal part 53 provided in parallel with the side edge part of a direction. When the user takes out the IC card 1 from the storage member 36, the user inserts a finger through the notches 49 and 50 and grips both side edges in the longitudinal direction of the IC card 1, so that the IC card 1 is removed from the storage member 36. Can be taken out. Note that the inclined portion 51 on the connector 42 side of the one notch portion 49 constitutes a cam portion of a holding mechanism that holds the IC card 1 on the storage member 36, as will be described later.
[0037]
As shown in FIGS. 5 and 6, the support plate 41 of the storage member 36 and the bottom plate of the guide recess 37 are connected by a toggle spring 54 that is an urging member. The toggle spring 54 serves as a moving means for moving the storage member 36 between an insertion / removal position for inserting / removing the IC card and a recording / reproducing position for recording / reproducing. The toggle spring 54 includes a coil portion 55 formed by winding a linear member, a first arm portion 56 extending from the coil portion 55 to one side, and a second arm extending from the coil portion 55 to the other side. The arm portion 57 is included. The first arm portion 56 is provided with a first engagement portion 59 that is engaged with a first engagement protrusion 58 provided on the support plate 41 of the storage member 36 at the distal end portion. The arm portion 57 is provided with a second engagement portion 62 that is engaged with a second engagement protrusion 61 provided on the bottom plate of the guide recess 37 at the distal end portion. The toggle spring 54 engages the first engagement protrusion 58 with the first engagement portion 59 and the second engagement protrusion 61 with the second engagement portion 62, thereby The guide recess 37 of the apparatus main body 21 is connected, and the storage member 36 is urged toward the insertion / removal position where the IC card 1 is inserted / removed and the recording / reproduction position where the IC card 1 is recorded / reproduced.
[0038]
As described above, when the storage member 36 connected to the bottom plate of the guide recess 37 provided on the upper surface 21a of the apparatus main body 21 by the toggle spring 54 is in the insertion / removal position where the IC card 1 is inserted / removed, FIG. As shown in FIG. 8, the biasing force of the toggle spring 54 biases it in the direction of the arrow A in FIG. Then, when the storage member 36 is moved from the insertion / removal position to the middle position of the guide recess 37, the urging direction of the toggle spring 54 is reversed to receive the urging force of the toggle spring 54, and the arrow A in FIG. As shown in FIG. 9, it is further moved in the direction and moved to a recording / reproducing position for recording / reproducing data in the guide recess 37.
[0039]
Further, when the storage member 36 at the recording / reproducing position is moved to the insertion / removal position of the IC card 1, the biasing direction of the toggle spring 54 is reversed when the storage member 36 is moved to a middle position of the guide recess 37. As a result, the urging force of the toggle spring 54 is received, and it is further moved in the direction of the arrow A in FIG. 9 and moved to the attachment / detachment position where the IC card 1 can be inserted and removed as shown in FIGS.
[0040]
By the way, as shown in FIGS. 11 and 12, the mounting portion 22 is provided with a holding mechanism 65 for preventing the IC card 1 stored in the storage member 36 from being displaced in the storage member 36. ing.
[0041]
As shown in FIG. 11, the holding mechanism 65 has a holding member 66 for holding the IC card 1 stored in the storage member 36. The holding member 66 is formed in a substantially C shape. The holding member 66 is supported by support pieces 67 and 67 provided in the middle of one side edge portion in the longitudinal direction of the support plate 41. That is, a support shaft 68 is inserted into one end of the substantially C-shaped holding member 66, and this support shaft 68 is supported by support pieces 67 and 67. The substantially C-shaped holding member 66 is attached to the support shaft 68 so that the open end side faces the IC card 1 side. Such a holding member 66 rotates in the direction of the arrow B and the direction of the opposite arrow B in FIG. 11 with the support shaft 68 as a fulcrum. Further, the holding mechanism 65 includes a torsion coil spring 69 serving as an urging member for urging and urging the holding member 66 in a direction opposite to the arrow B in FIG. The torsion coil spring 69 has a coil portion wound around a support shaft 68, one arm portion is locked to a holding member 66, and the other arm portion is locked to one support piece 67. 66 is urged in the direction of the arrow B in FIG.
[0042]
As shown in FIG. 11, the holding member 66 is positioned in the vicinity of one notch 49 of the guide recess 37. When the storage member 36 is in the insertion / removal position of the IC card 1 shown in FIGS. 6 and 8, the storage member 36 is in a position corresponding to the horizontal portion 53 constituting the cutout portion 49. 11 is in a non-holding position where the IC card 1 can be stored in the storage member 36. Then, when the storage member 36 is moved to the recording / reproducing position shown in FIG. 9, as shown in FIG. 12, the substantially C-shaped holding member 66 has an inclined portion 51 on the connector 42 side of the notch 49 on the back surface 2 f side. Pressed. Then, the holding member 66 rotates in the arrow B direction in FIGS. 11 and 12 with the support shaft 68 as a fulcrum against the urging force of the torsion coil spring 69. Then, the substantially C-shaped holding member 66 comes into contact with the flat surface 2 e of the IC card 1 stored in the storage member 36 at one end, and becomes a holding position for holding the IC card 1 in the storage member 36. As a result, the storage position of the IC card 1 stored in the storage member 36 is regulated. As described above, the inclined portion 51 of the cutout portion 49 functions as a cam portion for pressing the holding member 66 and rotating it against the urging force of the torsion coil spring 69.
[0043]
Further, when the IC card 1 at the recording / reproducing position is taken out and the storage member 36 is moved to the insertion / removal position of the IC card 1, the holding member 66 moves to a position corresponding to the horizontal portion 53. As a result, the holding member 66 is released from the state of being pressed by the inclined portion 51 that is the cam portion, and is rotated in the direction of the arrow B in FIG. 11 by the urging force of the torsion coil spring 69. The IC card 1 is separated from the flat surface 2e, and the IC card 1 can be taken out.
[0044]
In the mounting portion 22 configured as described above, the IC card 1 is inserted and removed as follows. That is, the storage member 36 connected to the bottom plate of the guide recess 37 provided on the upper surface 21a of the apparatus main body 21 by the toggle spring 54 is provided with the toggle spring 54 when the IC card 1 is not stored, as shown in FIG. The force is biased in the direction of the arrow A in FIG. 6 and the IC card 1 is in the insertion / removal position. At this time, as shown in FIG. 11, the holding member 66 constituting the holding mechanism 65 is in a position corresponding to the horizontal portion 53 constituting the cutout portion 49, and accordingly, the urging force of the torsion coil spring 69 causes the reversal in FIG. 11. It rotates in the direction of arrow B, and the IC card 1 can be stored in the storage member 36.
[0045]
As shown in FIG. 7, the IC card 1 abuts the end portion on the terminal portion 3 side against the inclined surface of the insertion guide portion 43, and the insertion guide portion 43. Then, it is inserted into the support plate 41 so as to slide toward the support plate 41. Then, as shown in FIG. 8, in the IC card 1, the terminal portion 3 is inserted into the insertion port 45 of the connector 42, and the connection terminal 46 is inserted into the engaging recess 3c.₁~ 46_TenAnd the electrode 3b₁~ 3b_TenIs the connection terminal 46₁~ 46_TenIt will be in the state electrically connected to. Further, when the IC card 1 is inserted into the connector 42, the insertion of the IC card 1 is guided by the guide piece 47 being engaged with the insertion guide groove 13, and the elastic engagement piece 48 is used for preventing the drop off. By being engaged with the recess 7, dropping is prevented.
[0046]
When the IC card 1 is moved in the direction of arrow A in FIG. 8 with a finger or the like and moved to the middle position of the guide recess 37 from the state in which the IC card 1 is stored in the storage member 36 as shown in FIG. 8 and FIG. As shown in FIGS. 9 and 10, the storage member 36 storing the IC card 1 receives the urging force of the toggle spring 54 when the urging direction of the toggle spring 54 is reversed, as shown in FIGS. 9 and 10. It is further moved in the direction of the center arrow A and moved to a recording / reproducing position for recording / reproducing data in the guide recess 37. Then, as shown in FIG. 12, the substantially C-shaped holding member 66 is pressed by the inclined portion 51 on the connector 42 side of the notch 49 on the back surface 2 f side. Then, the holding member 66 rotates in the arrow B direction in FIGS. 11 and 12 with the support shaft 68 as a fulcrum against the urging force of the torsion coil spring 69. Thereby, one end of the substantially C-shaped holding member 66 is brought into contact with the flat surface 2e of the IC card stored in the storage member 36, and the holding member 66 stores the IC card 1 stored in the storage member 36. Regulate the position.
[0047]
Further, when the storage member 36 is moved in the direction of the arrow A in FIG. 9 from the state where it is moved to the recording / reproducing position, and moved to the middle position of the guide recess 37, the biasing direction of the toggle spring 54 is reversed. As a result, the biasing force of the toggle spring 54 is received, and the IC card 1 is further moved in the direction of the arrow A in FIG. Here, the holding member 66 constituting the holding mechanism 65 moves to a position corresponding to the horizontal portion 53 as shown in FIG. As a result, the holding member 66 is released from the state of being pressed by the inclined portion 51 that is the cam portion, and is rotated in the direction of the arrow B in FIG. 11 by the urging force of the torsion coil spring 69. The IC card 1 is separated from the flat surface 2e, and the IC card 1 can be taken out. At this attachment / detachment position, the IC card 1 is taken out from the storage member 36 by inserting fingers from the notches 49 and 50 of the guide recess 37 and gripping both side edges in the longitudinal direction of the IC card 1.
[0048]
The mounting portion 22 as described above is provided on the upper surface 21a of the apparatus main body 21, and since the IC card 1 is provided in a matrix, the label 10 of the IC card 1 is exposed to the outside. Therefore, the user can easily identify the contents recorded on the plurality of IC cards 1 attached to the attachment unit 22, and there is no need to perform the attaching / detaching operation of the IC card 1 as in the prior art. . In addition, after the user presses the storage member 36 in the moving direction, the mounting unit 22 automatically moves the storage member 36 between the insertion / removal position and the recording / reproducing position by the urging force of the toggle spring 54. Thus, the user can feel that the IC card 1 has moved to the recording / playback position and that the IC card 1 has moved to the insertion / removal position. Furthermore, since a plurality of IC cards 1 can be accommodated in the apparatus main body 21 at the same time, it is possible to easily manage IC cards that have been downsized.
[0049]
Next, a specific circuit configuration of the recording / reproducing apparatus 20 will be described. As shown in FIG. 13, the recording / reproducing apparatus 20 includes an optical input unit 71 that photoelectrically converts an optical signal input from the digital input terminal 28. And a digital input unit 72 that performs input interface processing of the electrical signal generated by the optical input unit 71. The optical signal input from the optical disk recording / reproducing apparatus to the digital input terminal 28 via the optical cable is photoelectrically converted by the optical input unit 71 and received by the digital input unit 72 according to the transmission format.
[0050]
The recording / reproducing apparatus 20 also includes a microphone amplifier 73 that amplifies audio data input to the microphone terminal 25, and a power amplifier 74 that amplifies output signals including audio data output from the headphone terminal 24 and the line output terminal 26. The analog signal input from the microphone amplifier 73 and the line input terminal 27 is converted into a digital signal, and the digital signal is converted into an analog signal. The analog signal is converted from the headphone terminal 24 and the line output terminal 26 via the power amplifier 74. The AD / DA converter 75 to output and the digital data supplied from the AD / DA converter 75 are compressed, and the compressed data recorded on the IC card 1 is decompressed and output to the AD / DA converter 75 (DSP) Digital Signal Processor) 76 and encrypt data Together and a SAM (Securty Application Module) 77 to deploy encrypted data.
[0051]
When the signal is input, the DSP 76 converts the digital signal input from the digital input unit 72 or the data converted into the digital signal by the AD / DA converter 75 into, for example, the JPEG (Joint Photographic Experts Group) format or MPEG (motion picture expert group). ) Compressed into 1, 2 format, and the compressed data is supplied to the SAM 77 for encryption. Further, when outputting a signal, the DSP 76 expands the data expanded by the SAM 77 and the data compressed and stored in the IC card 1 or the like, and outputs the data to the AD / DA converter 75.
[0052]
The SAM 77 encrypts the data and expands the encrypted data. That is, the SAM 77 encrypts the data supplied from the DSP 76, expands the encrypted data recorded on the IC card 1 or the like, and outputs it to the DSP 76. The encryption key is stored in a flash memory 84 to be described later, and data is encrypted and expanded by exchanging the encryption key with the CPU 86.
[0053]
The recording / reproducing apparatus 20 also includes a USB interface 78 connected to the USB connector 29, a real-time clock 79 that counts the date and time, and a display driver 81 for displaying data on the display unit 23. The USB interface 78 is a communication interface between an external device such as a computer connected to the USB connector 29, and various data such as control data, processing data processed by the computer, image data, audio data, and the like. Exchange. The display driver 81 causes the display unit 23 to display information recorded on the IC card 1 such as image data recorded on the IC card 1 and information related to information recorded on the IC card 1.
[0054]
Further, the recording / reproducing apparatus 20 includes, as a power supply unit, a regulator 82 that rectifies the AC power from the power connector 32 into a DC power, and a DC / DC converter 83 that converts the voltage from the regulator 82 into an operating voltage of each circuit. Have.
[0055]
Furthermore, the recording / reproducing apparatus 20 includes a flash memory 84 in which system information and the like are recorded, a buffer memory 85 that temporarily stores data of the IC card 1, and a CPU (Central Processing Unit) 86 that controls the overall operation. And the memory interface 87 to which the six connectors 42 of the mounting portion 22 described above are connected. The flash memory 84 displays, for example, a recording mode for recording music data on the IC card 1, a playback mode for reproducing music data recorded on the IC card 1, and image data recorded on the IC card 1. System information related to the operation of the apparatus main body 21 such as a display mode for display on the recording medium 23 is recorded. The flash memory 84 stores an encryption key used when the data is encrypted by the SAM 77 and the encrypted data is expanded. Further, the buffer memory 85 temporarily stores data read from one IC card 1 when dubbing data from one IC card 1 attached to the attachment unit 22 to another IC card 1, for example. To do.
[0056]
The CPU 86 controls the entire apparatus, and includes a ROM (Read Only Memory) 86a that stores an operation program of the apparatus main body 21, and a RAM (Random Access Memory) that serves as a work area from which the program stored in the ROM 86a is temporarily read. 86b. Such a CPU 86 reads out a program from the ROM 86a to the RAM 86b based on an operation signal from the operation unit 31, and controls the entire apparatus by executing this program. Further, the CPU 86 has a file manager 91 that performs file management of the IC card 1 attached to the attachment unit 22. The file manager 91 is formed by reading a management file for managing main data in the IC card 1. Then, the CPU 86 accesses one or a plurality of IC cards 1 mounted on the mounting unit 22 according to the file manager 91.
[0057]
As shown in FIG. 14, the memory interface 87 serving as an interface with the six connectors 42 of the mounting unit 22 includes a transfer protocol interface 92 that executes access to the register 12b and the page buffer 12c of the IC card 1 shown in FIG. Detects whether the IC card 1 is securely attached to the connector 42 and the serial interface 93 that defines the protocol for transferring data in the three signal lines, ie, the serial clock SCLK, the bus state BS, and the serial data input / output SDIO. And a selection unit 95 for establishing a connection between the serial interface 93 and the IC card 1 mounted on the mounting unit 22.
[0058]
The serial interface 93 performs data transfer by the serial clock SCLK, the bus state BS, and the serial data input / output SDIO. These signal lines are connected to the connection terminals 46 of the connectors 42 of the mounting portions 22a to 22f via the select portion 95.₂, 46_Four, 46₈It is connected to the. As shown in FIG. 8, the IC card 1 is stored in the storage member 36 of the mounting portion 22, and when the storage member 36 is moved to the recording / reproducing position as shown in FIG. That is, the serial interface 93 shown in FIG. 3 and the serial interface 93 shown in FIG. 3 are connected.
[0059]
  IC card1The insertion detection unit 94 that detects whether or not the mounting unit 22 is mounted is connected to the connection terminals 46 of the mounting units 22a to 22f.₆Are connected to the electrode 3b and constitute the terminal part 3 of the IC card 1₆By detecting the terminal voltage, the mounting state of the IC card 1 to the mounting portions 22a to 22f is detected. That is, when the storage member 36 that stores the IC card 1 is moved to the recording / reproducing position shown in FIG. 10, the insertion detection unit 94 forms the electrode 3 b that constitutes the terminal unit 3 of the IC card 1.₆It becomes possible to detect the terminal voltage of the electrode 3b.₆It is detected to which mounting part 22 the IC card 1 is mounted by detecting the terminal voltage. The insertion detection unit 94 supplies this detection signal to the file manager 91 in the CPU 86, and switches and controls the enable switch constituting the selection unit 95 based on this detection signal.
[0060]
As shown in FIG. 14, the selection unit 95 includes selection switches 96a to 96f (hereinafter also simply referred to as selection switches 96) for selecting the connectors 42 of the mounting units 22a to 22f, and a mounting in which the IC card 1 is not mounted. And enable switches 97a to 97f that prohibit the connector 42 of the section 22 from being selected. These selection switches 96a to 96f and enable switches 97a to 97f (hereinafter also simply referred to as enable switches 97) are connected in series, and the serial interface 93 and the connection terminals 46 of the mounting portions 22a to 22f.₂, 46_Four, 46₈Between. The selection switch 96 is provided corresponding to the number of connectors 42 of the mounting portion 22, one end is connected to the enable switches 97 a to 97 f and the other end is connected to the serial interface 93. Each of the selection switches 96a to 96f is controlled by the file manager 91 in the CPU 86, so that the selection switch 96a to 96f of the mounting unit 22 to which the IC card 1 to be reproduced is mounted in the mounting unit 22 to which the IC card 1 is mounted. The connector 42 is selected.
[0061]
In addition, the enable switches 97a to 97f have one ends connected to the connection terminals 46 of the connectors 42 of the mounting portions 22a to 22f.₂, 46_Four, 46₈The other end is connected to the selection switches 96a to 96f. The enable switches 97a to 97f are for preventing the selection of the mounting unit 22 in which the IC card 1 is not mounted, and are controlled by the insertion detection unit 94. That is, the selection switches 96a to 96f are mounted on the mounting portions 22a to 22f on which the IC card 1 to be recorded or reproduced is mounted among the mounting portions 22a to 22f determined to be mounted on the IC card 1 by the enable switches 97a to 97f. 22f is selected.
[0062]
Each function of the CPU 86 and the memory interface 87 may be formed by either hardware or software.
[0063]
Next, a series of operations from when the IC card 1 is mounted to the mounting portions 22a to 22f of the memory interface 87 until the desired IC card 1 is selected will be described. First, when the power of the apparatus main body 21 is turned on. The insertion detection unit 94 includes electrodes 3b constituting the terminal unit 3 of the IC card 1 mounted on the mounting units 22a to 22f.₆The terminal voltage of is detected. Here, the insertion detection part 94 is the electrode 3b which comprises the terminal part 3 of each mounting part 22a-22f.₆When the terminal voltage is larger than the threshold value, it is determined that the IC card 1 is mounted on the mounting unit 22, and when the terminal voltage is lower than the threshold value, it is determined that the IC card 1 is not mounted on the mounting unit 22. In other words, the insertion detection unit 94 determines which of the mounting units 22a to 22f has the IC card 1 mounted therein. Then, the insertion detection unit 94 sends a detection signal indicating which mounting unit 22a to 22f is mounted with the IC card 1 and which mounting unit 22a to 22f is not mounted with the IC card 1 to the file manager 91 of the CPU 86. To supply. At the same time, the insertion detection unit 94 supplies a detection signal to the selection unit 95.
[0064]
Then, the insertion detection unit 94 controls on / off of the enable switches 97a to 97f based on the detection signal. Specifically, the insertion detection unit 94 is turned on so that the user can select the enable switches 97a to 97f of the mounting units 22a to 22f to which the IC card 1 is mounted, and the IC card 1 is mounted. The enable switches 97a to 97f of the unused mounting portions 22a to 22f are turned off so that the user cannot select them. At the same time, the CPU 86 to which the detection signal is supplied displays the selectable address mounting unit 22 on the display unit 23 via the display driver 81 based on the detection signal.
[0065]
Then, the user performs a selection operation on the operation unit 31 to select the mounting unit 22 at a desired address by viewing the mounting units 22a to 22f provided in a matrix on the display of the display unit 23 or the upper surface 21a of the apparatus main body 21. When an operation signal is input from the operation unit 31 to the CPU 86, the file manager 91 of the CPU 86 controls the selection switch 96 based on the operation signal. That is, the file manager 91 turns on the selection switch 96 of the mounting unit 22 at the address selected by the user and turns off the other selection switches 96. That is, both the selection switch 96 and the enable switch 97 are turned on for the mounting unit 22 selected by the user, and either the selection switch 96 or the enable switch 97 is turned off for the mounting unit 22 not selected by the user. Both the selection switch 96 and the enable switch 97 are turned off.
[0066]
After the mounting unit 22 on which the IC card 1 is mounted is selected by the user, for example, the operation unit 31 so as to reproduce music data recorded on the IC card 1 mounted on the mounting unit 22 selected by the user. Is operated, an operation signal is input to the CPU 86 from the operation unit 31. Then, the file manager 91 of the CPU 86 connects the serial interface 12d and the serial interface 93, so that the music data is read from the flash memory 11 of the IC card 1 using the serial clock SCLK, the bus state BS, and the serial data input / output SDIO. And this music data is supplied to the DSP 76. The DSP 76 decompresses the compressed music data and supplies it to the AD / DA converter 75. The AD / DA converter 75 converts music data, which is a digital signal, into an analog signal and outputs it to the power amplifier 74. The music data is output from a speaker connected to the line output terminal 26 or a headphone connected to the headphone terminal 24.
[0067]
  In addition, after the user selects the mounting unit 22 on which the IC card 1 is mounted, for example, the IC card 1 mounted on the mounting unit 22 selected by the user receives digital content from an optical disk recording / playback device that is an external device, For example, when music data is dubbed, first, an operation signal for dubbing music data to the IC card 1 is input to the CPU 86 from the magnetic disk mounted on the optical disk recording / reproducing apparatus. An optical signal is input from the optical disk recording / reproducing apparatus to the optical input unit 71 via the digital input terminal 28. The optical input unit 71 photoelectrically converts the optical signal into an electrical signal,72Performs reception processing of this electric signal. The DSP 76 performs data compression processing, and the CPU 86 records the data subjected to the compression processing on the IC card 1 mounted on the mounting unit 22 selected by the user.
[0068]
Next, with respect to the case where the IC card 1 on which music data is recorded is attached to some of the attachment portions 22a to 22f and the music data recorded on the IC card 1 is continuously reproduced, refer to FIG. explain.
[0069]
First, in step S1, when the operation unit 31 is operated so as to execute the continuous reproduction mode process by the user, an operation signal is input from the operation unit 31 to the CPU 86, and the CPU 86 starts the continuous reproduction mode process. Proceeding to step S2, when the operation signal is not input, step S1 is repeated.
[0070]
In step S2, the CPU 86 calculates the number N of IC cards 1 attached to the attachment units 22a to 22f. That is, the CPU 86, as shown in FIG.₆And the number N of IC cards 1 attached to the attachment unit 22 is calculated based on the detection signal input from the insertion detection unit 94. Here, in this embodiment, since six mounting portions 22 are provided, the maximum value is 6, and when 1, the continuous reproduction mode cannot be executed, so the minimum value is 2. It is. Then, after calculating the number N of IC cards 1, the CPU 86 proceeds to step S3.
[0071]
In step S3, the CPU 86 determines at which address of the mounting portions 22a to 22f the IC card 1 is mounted. That is, the CPU 86 determines on which address the IC card 1 is mounted based on the detection signal input from the insertion detection unit 94. At this time, the insertion detection unit 94 also outputs a detection signal to the selection unit 95, turns off the enable switch 97 of the mounting unit 22 where the IC card 1 is not mounted, and the user does not mount the IC card 1. The address of the mounting unit 22 cannot be selected. Then, the CPU 86 proceeds to step S4 after determining the address of the mounting unit 22 to which the IC card 1 is mounted.
[0072]
In step S <b> 4, the CPU 86 displays the address of the mounting unit 22 in which the IC card 1 is mounted on the display unit 23 via the display driver 81. Further, the CPU 86 displays information related to the music data recorded on the IC card 1, for example, the title of the song, on the display unit 23. Moreover, in the recording / reproducing apparatus 20, since the mounting portions 22a to 22f are provided on the upper surface 21a of the apparatus main body 21, the recorded content of the IC card 1 is identified by looking at the label 10 attached to the IC card 1. be able to. Then, the CPU 86 sets the playback order in which the IC card 1 is played back based on the operation of the operation unit 31 by the user, and proceeds to step S5. Note that the playback order may be played back randomly, or may be played back in ascending order of the addresses of the mounting portions 22a to 22f.
[0073]
In step S5, the CPU 86 sets a variable n to 1 for reproducing the IC card 1 of the mounting unit 22 set to reproduce first, and proceeds to step S6. In step S6, the file manager 91 of the CPU 86 switches on the selection switch 96 corresponding to the mounting unit 22 selected by the user based on the variable n, switches off the other selection switch 96, and the user switches off the selection switch 96. Only the IC card 1 at the address to be reproduced first is made reproducible, and the process proceeds to step S7.
[0074]
In step S7, the CPU 86 sets an address of music data to be read from the IC card 1, and executes read access in step S8. Then, the CPU 86 reads the music data from the flash memory 11 of the IC card 1 by using the serial clock SCLK, the bus state BS, and the serial data input / output SDIO by connecting the serial interface 12d and the serial interface 93. The music data is supplied to the DSP 76. The DSP 76 decompresses the compressed music data and supplies it to the AD / DA converter 75. The AD / DA converter 75 converts music data, which is a digital signal, into an analog signal and outputs it to the power amplifier 74. The music data is output from a speaker connected to the line output terminal 26 or a headphone connected to the headphone terminal 24.
[0075]
In step S9, when the user performs a stop operation of the continuous playback process on the operation unit 31, the CPU 86 proceeds to step S14, and when the stop operation of the continuous playback process is not performed, the process proceeds to step S10.
[0076]
In step S10, when the reproduction of all music data recorded on the IC card 1 being reproduced first is completed, the CPU 86 proceeds to step S11, where reproduction of all music data recorded on the IC card 1 is completed. If not, the process returns to step S7 and the process is repeated.
[0077]
When it is determined in step S11 that the reproduction of all music data recorded on the IC card 1 has been completed, the CPU 86 in step S11 selects the selection switch 96 of the mounting unit 22 in which the IC card 1 whose reproduction has been completed is mounted. And the process proceeds to step S12.
[0078]
In step S12, the CPU 86 determines whether or not the variable n is equal to or greater than the number N of the IC cards 1 attached to the attachment unit 22, and when the variable n is equal to or greater than the variable N, the process proceeds to step S13. Proceeds to step S15.
[0079]
In step S <b> 13, the CPU 86 ends the continuous reproduction process on the assumption that the continuous reproduction has been completed for all the IC cards 1 attached to the attachment unit 22. In step S9, when the user performs an operation for stopping the continuous reproduction process on the operation unit 31, the CPU 86 stops the reading operation of the IC card 1 currently being reproduced in step S14, that is, turns off the selection switch 96. In step S13, the continuous reproduction process ends.
[0080]
If it is determined in step S12 that the variable n is smaller than the variable N, the CPU 86 increments the variable n to reproduce the next IC card 1 in step S15, returns to step S6, and the IC to be reproduced next. The selection switch 96 of the mounting unit 22 in which the card 1 is mounted is turned on.
[0081]
As described above, the mounting units 22a to 22f are provided on the upper surface 21a of the apparatus main body 21 also when music data recorded on the plurality of IC cards 1 mounted on the mounting units 22a to 22f are continuously reproduced. Therefore, it is not necessary to look at the display on the display unit 23, but to select the IC card 1 to be continuously played by looking at the description of the label 10 attached to the IC card 1 mounted on the mounting units 22a to 22b. Thus, the address of the mounting portion 22 can be easily selected.
[0082]
Next, transfer mode processing for transferring and recording data recorded on one IC card to another IC card will be described with reference to FIG. First, in step S21, when the user operates the operation unit 31 to execute the transfer mode process, an operation signal is input from the operation unit 31 to the CPU 86, and the CPU 86 starts the transfer mode process. Proceeding to S22, when the operation signal is not inputted, step S21 is repeated.
[0083]
In step S22, the CPU 86 requests to select the address of the mounting unit 22 to which the transfer source IC card 1 is mounted, the recording track designation request in the transfer source IC card 1, and the transfer destination IC card. A request is made to select the address of the mounting portion 22 to which 1 is mounted. Specifically, the CPU 86 makes these requests on the display unit 23 via the display driver 81. Here, based on the detection result of the insertion detection unit 94, the CPU 86 instructs the display unit 23 to instruct the transfer source and the transfer destination in the mounting unit 22 in which the IC card 1 is mounted. .
[0084]
In step S23, an operation in response to the request in step S22, that is, designation of the address of the mounting unit 22 in which the IC card 1 to be transferred is mounted, designation of the recording track of the transfer source IC card 1, and transfer When the address of the mounting unit 22 to which the previous IC card 1 is mounted is designated, the CPU 86 proceeds to step S24, and when this operation is not performed, the CPU 86 returns to step S22, and the address of the transfer source and transfer destination. Request to specify.
[0085]
In step S 24, the CPU 86 sets the address of the transfer source IC card 1, the address of the recording track of the transfer source IC card 1, and the address of the transfer destination IC card 1 in the file manager 91. Then, the CPU 86 proceeds to step S25.
[0086]
In step S25, the CPU 86 sets the address of the recording track to be transferred of the transfer source IC card 1 as a read address, and proceeds to step S26. In step S26, the CPU 86 turns on the selection switch 96 of the mounting unit 22 in which the transfer source IC card 1 is mounted, so that data of a predetermined recording track can be read. Then, when the selection switch 96 is turned on, the CPU 86 proceeds to step S27.
[0087]
In step S <b> 27, the CPU 86 reads data from the transfer source IC card 1 and stores it in the buffer memory 85. Here, the reading process is performed in units of data amount that does not exceed the data capacity that can be stored in the buffer memory 85.
[0088]
When the CPU 86 stores predetermined data in the buffer memory 85, in step S28, the CPU 86 turns off the selection switch 96 of the mounting unit 22 in which the IC card 1 being read is mounted. Next, in step S29, the CPU 86 turns on the selection switch 96 of the mounting unit 22 in which the transfer destination IC card 1 is mounted in order to output the data stored in the buffer memory 85 to the transfer destination IC card 1. In step S30, the data stored in the buffer memory 85 is transferred to an empty area of the transfer destination IC card 1.
[0089]
Next, when the data transfer from the buffer memory 85 to the transfer destination IC card 1 is completed, the CPU 86 turns off the selection switch 96 of the mounting unit 22 in which the transfer destination IC card 1 is mounted in step S31. Proceed to S32. In step S32, the CPU 86 determines whether or not the transfer of all transfer data has been completed by writing to the transfer destination IC card 1 in step S30. When the transfer has been completed, the process proceeds to step S33 and the transfer process is terminated. If not completed, the process proceeds to step S34.
[0090]
When the transmission of all data has not been completed, in step S34, the CPU 86 sets the next read address, that is, the address of the transfer source IC card 1, returns to step S26, and the transfer source IC card 1 again determines. The selection switch 96 of the mounted mounting unit 22 is turned on, and the subsequent data is read out to the buffer memory 85.
[0091]
As described above, when data is transferred between the IC cards 1 mounted on the mounting units 22a to 22f, the mounting units 22a to 22f are provided on the upper surface 21a of the apparatus main body 21, and thus the display unit. It is not necessary to look at the display of 23, and from the description of the label 10 affixed to the IC card 1 mounted on the mounting portions 22a to 22b, the transfer source IC card 1 and the transfer destination IC card 1 are selected. Thus, the address of the mounting portion 22 can be easily selected.
[0092]
The example in which six mounting portions 22 are provided in a matrix on the upper surface 21a of the apparatus main body 21 has been described above, but the number of mounting portions 22 is not limited to this, and other than the upper surface 21a. For example, it may be provided on the front surface 21b or the side surface serving as the operation surface. Further, the mounting portions 22 may be provided in a row in the vertical or horizontal direction of each surface of the apparatus main body 21. Further, the insertion / removal direction of the IC card 1 is not limited to this. For example, the IC card 1 is inserted / removed from the front surface 21b side of the apparatus main body 21 so that the insertion / removal operation can be easily performed. You may be able to do that.
[0093]
  The mounting unit 22 provided in the recording / reproducing apparatus 20 as described above isAs a reference exampleIt can also be configured as follows. That is, the mounting portion 101 is characterized in that the IC card 1 is accommodated in a step shape as shown in FIGS.
[0094]
Specifically, the mounting portion 101 has a storage recess 102 in which a plurality of IC cards 1 are stored in a step shape. The housing recess 102 is formed in a substantially rectangular shape with the insertion / removal direction of the IC card 1 as the longitudinal direction, and can accommodate a total of nine IC cards 1. The storage recess 102 is formed in a stepped shape such that one side in the longitudinal direction descends toward the center. An attachment portion 104 for attaching a connector 103 serving as a transmission / reception means with the IC card 1 is formed on one side of the storage recess 102 formed in a three-step staircase shape. The attachment portion 104 includes a horizontal surface portion 104 a for attaching the connector 103 and a vertical surface portion 104 b for restricting the attachment position of the connector 103. The storage recess 102 has a short side length W of the IC card 1 shown in FIG.₁The insertion guide wall 105 that guides the insertion / removal of the IC card 1 is formed at substantially the same interval as that of the IC card 1, and the storage portion 106 that stores the IC card 1 is partitioned by the insertion guide wall 105. As shown in FIGS. 17 and 18, the horizontal surface portion 104 a functions as a support portion for supporting the IC card 1 on the base end side, and the next stage connector 103 is attached to the tip end side. The horizontal surface portion 104 a is formed in such a length as not to cover the label 10 of the IC card 1 inserted into the lower connector 103 when the IC card 1 is attached to the connector 103.
[0095]
  By the way, the connector 103 attached to the attachment part 104 described above has substantially the same configuration as the connector 103 described above, is formed in a substantially rectangular shape as a whole, and the terminal part of the IC card 1 is provided inside the connector 103 on the front surface. An insertion port 107 for inserting 3 is provided. In addition, a connection terminal 108 that is electrically connected to the electrode 3 b constituting the terminal portion 3 is provided on the bottom surface inside the connector 103. These connection terminals 108 are formed to be bent in a substantially L shape. The bent portion protrudes upward and is elastically displaced by being pressed by the electrode 3 b of the IC card 1. It is designed to be electrically connected. A guide piece 109 that is engaged with the insertion guide groove 13 of the IC card 1 is provided on one side surface of the connector 103. The guide piece 109 is provided so as to be continuous with the guide piece 110 provided on one side of the insertion guide wall 105 and the side surface constituting the storage recess 102. The guide pieces 109 and 110 areInsertion slotWhen the terminal portion 3 of the IC card 1 is inserted from 107, the insertion guide groove 13 is engaged to guide the insertion. Further, on the other side surface of the connector 103, an elastic engagement piece 111 that is engaged with the recess 7 for preventing the IC card 1 from dropping is provided. When the IC card 1 is stored in the connector 103, the elastic engagement piece 111 is engaged with the drop-off preventing recess 7 to prevent the IC card 1 from being stored out of the storage position. Such a connector 103 is attached to the attachment portion 104 of each storage portion 106 by caulking or the like so that the insertion port 107 faces the other side of the storage recess 102. Further, when the IC card 1 is inserted into the upper connector 103, the top plate 103a of the connector 103 at the second and third stages from the top when the IC card 1 is inserted into the upper connector 103 is attached to the mounting part 104. 1 functions as a support portion 112 that supports 1.
[0096]
The bottom surface 102a of the storage recess 102 is formed to a size that allows a clearance 113 on the other side of the storage recess 102 when the IC card 1 is inserted into the lowermost stage, that is, the third connector 103 from the top. ing. The storage recess 102 is formed so as to have a clearance 113 when the IC card 1 is inserted into the connector 103, so that the IC card 1 can be inserted into and removed from the third-stage connector 103. To be able to. In addition, an inclined surface portion 114 is provided on the other side of the storage recess 102 so as to be a guide portion when the IC card 1 is taken out of the storage recess 102 continuously from the bottom surface 102a.
[0097]
As shown in FIG. 18, the end portion on the terminal portion 3 side is abutted against the support portion 112, and then the IC card 1 is laid on the mounting portion 101 as described above, and then the front surface 21 b side of the apparatus main body 21. 17 and 18 is moved in the direction of arrow C and inserted into the connector 103. Further, when the IC card 1 is taken out from the connector 103, the IC card 1 is taken out in the direction opposite to the arrow C in FIGS. At this time, since the back surface 2f side is lifted by the inclined surface portion 114, the IC card 1 is easily taken out.
[0098]
In the mounting unit 101 as described above, a part of the plurality of IC cards 1 is stored in the storage recess 102 so as to overlap each other, and therefore the entire mounting unit 101 can be made smaller than the mounting unit 22 described above. it can. Further, in the mounting portion 101, even when the IC card 1 is inserted into each stage of the connector 103, the storage recess 102 is provided with a support portion 112 composed of the horizontal surface portion 104 a and the top plate 103 a of the connector 103. Therefore, it is possible to prevent the label 10 of the lower stage IC card 1 from being covered and hidden by the upper stage IC card 1. Therefore, the user can easily identify the contents recorded on the plurality of IC cards 1 attached to the attachment unit 22, and there is no need to perform the attaching / detaching operation of the IC card 1 as in the prior art. . Further, since the IC card 1 can be inserted / removed from the front surface 21b side of the apparatus main body 21, the insertion / removal operation of the IC card 1 can be easily performed.
[0099]
Although the mounting unit 101 has been described above, the number of IC cards 1 to be mounted on the mounting unit 101 is not limited to this. That is, when the number of IC cards 1 to be mounted on the mounting portion 101 is reduced, the number of the storage recesses 102 may be reduced or the number of the side-by-side arrangements may be reduced. What is necessary is just to increase the number of rows, or to increase the number arranged side by side.
[0100]
In the above, the recording / reproducing apparatus 20 of the IC card 1 has been described with reference to the drawings. However, the present invention is not limited to this, for example, between the terminal portion of the IC card 1 and the connector. Data transmission / reception may be performed wirelessly. Further, the present invention may be a recording device or a reproducing device for the IC card 1. Further, the apparatus main body 21 may be provided with an opening / closing lid that closes the entire mounting portions 22 and 101 in order to prevent foreign matters such as dust from entering the mounting portions 22 and 101.
[0101]
【The invention's effect】
According to the IC card recording and / or reproducing apparatus of the present invention, since the labels of a plurality of IC cards face the outside and are attached to the apparatus main body, the labels of the attached IC cards are easily visually recognized. The contents recorded on the IC card can be easily identified. Further, when the IC card is mounted on the apparatus main body in a staircase pattern, the mounting portion can be made smaller. Further, since a plurality of IC cards whose size has been reduced can be stored at a time, the management of the IC cards is facilitated.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an IC card used in a recording / reproducing apparatus to which the present invention is applied.
FIG. 2 is a perspective view of the IC card as seen from the bottom side.
FIG. 3 is a block diagram of the IC card.
FIG. 4 is a perspective view of a recording / reproducing apparatus to which the present invention is applied.
FIG. 5 is an exploded perspective view of a mounting portion on which an IC card is mounted.
FIG. 6 is a plan view showing a state in which a storage member in which the IC card is stored is in an IC card attachment / detachment position.
FIG. 7 is a cross-sectional view showing a state where an IC card is inserted into a storage member.
FIG. 8 is a plan view showing a state in which the IC card is inserted into the storage member at the IC card insertion / removal position.
FIG. 9 is a plan view showing a state in which the IC card is stored in the storage member, and the storage member is moved to the recording / reproducing position.
FIG. 10 is a cross-sectional view showing a state where an IC card is stored in a storage member and the storage member is moved to a recording / reproducing position.
FIG. 11 is a diagram for explaining a holding mechanism for holding the IC card in the storage member, and is a perspective view of a main part showing the holding mechanism when the storage member is at the insertion / removal position of the IC card.
FIG. 12 is a perspective view showing a state of the holding mechanism when the storage member storing the IC card is moved to the recording / reproducing position.
FIG. 13 is a block diagram of a recording / reproducing apparatus.
FIG. 14 is a diagram illustrating an interface between an IC card and a recording / reproducing apparatus.
FIG. 15 is a flowchart illustrating continuous playback mode processing for continuously playing back a plurality of IC cards.
FIG. 16 is a flowchart illustrating transfer mode processing for transferring data recorded on one IC card to another IC card and recording the data.
[FIG. 17]referenceIt is a principal part perspective view explaining an example.
FIG. 18 is a cross-sectional view of the mounting portion.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 IC card, 3 terminal part, 3b electrode, 10 label, 20 recording / reproducing apparatus, 21 apparatus main body, 22 mounting part, 36 accommodating member, 37 guide recessed part, 41 support plate, 42 connector, 44 mounting plate, 45 insertion slot, 46 connection terminal, 65 holding mechanism, 66 holding member, 67 support piece, 68 support shaft, 69 torsion coil spring

Claims (3)

A plurality of storage means for storing a plurality of substantially IC cards, each of which is provided on any surface of the apparatus main body, and having a semiconductor memory built in so that a label attached to the IC card faces the outside; ,
A transmission / reception means provided in each of the storage means for transmitting / receiving data to / from the IC card;
Holding means for holding the IC card stored in the storage means in the storage means ;
Moving means for moving the storage means between an attaching / detaching position for attaching / detaching the IC card and a recording / reproducing position for recording or reproducing data ;
The holding means is provided in the storage means and rotates between a holding position for holding the IC card stored in the storage means and a non-holding position of the IC card, and the apparatus main body side. And a recording / reproducing apparatus for an IC card having a cam portion that rotates the holding member to the holding position when the storage means moves to the recording / reproducing position. Above storage means, the insertion side of the IC card, the recording and the IC card according to claim 1, wherein the insertion guide portion to be able to house the smooth said housing means to the IC card may be provided / Or playback device. It said housing means, the recording and / or reproducing apparatus of an IC card according to claim 1, wherein that provided in a matrix in the device body.

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