JP2004119140A - Electronic apparatus and control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent separation of an IC card from attachment part by mistake by locking the IC card attached to the attachment part on the attachment position. <P>SOLUTION: This has a cabinet 2, an insertion port 6 which is installed at the front face of the cabinet 2 and into which the IC card 8 of a plurality of kinds is selectively inserted, the attachment part 7 which is installed in the cabinet 2 in succession to the insertion port 6 and to which the IC card 8 inserted from the insertion port 6 is attached, a card retaining piece 49 to retain the IC card 8 attached to the attachment part 7 at the attachment position, and a lock mechanism 71 to lock the IC card 8 in a state that the card retaining piece 49 is retaining the IC card 8. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic device that locks a mounted IC card at a mounting position when a specific type of IC card is mounted, and a control method for the electronic device.
[0002]
[Prior art]
2. Description of the Related Art Some small or portable information processing apparatuses such as a notebook personal computer and a PDA (Personal Digital (Data) Assistants) can mount an IC card as a function expansion module. Examples of the IC card used as the function expansion module include a memory IC card having a built-in storage element such as a flash memory, a camera IC card provided with an imaging element such as a CCD (Charge-Coupled Devices), and other information processing devices. There is a wireless communication IC card or the like having a built-in antenna element or the like for performing wireless communication with the device. These IC cards have the same external shape, size, interface, etc., except for the parts that embody the specific functions, so that they can be mounted on the same mounting part.
[0003]
The memory IC card has a storage element, a control circuit, and the like built in the card body, and a mounting portion of the information processing device is formed to have substantially the same size as the memory IC card. Therefore, when the memory IC card is mounted on the mounting portion of the information processing device, substantially the entire IC card is stored in the information processing device. On the other hand, since the camera IC card captures an image of a subject, it is necessary to expose the camera portion to the outside from the information processing device when the camera IC card is mounted on the mounting portion. The wireless communication IC card also needs to transmit data to another information processing device and to receive data transmitted from the other information processing device. Must be exposed to the outside of the information processing device. That is, the camera IC card and the wireless communication IC card are formed larger than the memory IC card, and when mounted on the mounting portion of the information processing apparatus, a portion realizing a specific function protrudes outside from the mounting portion. Exposed to the outside.
[0004]
[Problems to be solved by the invention]
However, when the information processing device is used with the camera IC card, the wireless communication IC card, or the like being mounted, the information processing device may come off the mounting portion of the information processing device due to erroneous operation or being caught by something. Further, an IC card for a camera, an IC card for wireless communication, and the like are provided with an imaging element, an antenna element, and the like as compared with an IC card for a memory and are heavy, and thus are easily detached from a mounting portion. When performing data communication between the information processing device as the host device and the IC card mounted on the mounting unit, if the IC card mounted on the mounting unit comes off, the data being communicated is lost. Cannot be transferred reliably. If the IC card is accidentally detached from the mounting section, the IC card or a connector provided in the mounting section to which the IC card is connected may break down.
[0005]
Also, memory IC cards have been designed to have higher capacities and become more expensive. If the memory IC card is detached from the mounting portion while performing data communication with the information processing device as the host device, the data being communicated cannot be reliably transferred.
[0006]
In particular, when the host device is a portable information processing device, the portable information processing device is used in various states such as being held by hand or stored in a bag. The IC card mounted on the device is easily inadvertently detached from the mounting portion.
[0007]
SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to lock an IC card mounted on a mounting portion at a mounting position and to accidentally remove the IC card from the mounting portion. It is an object of the present invention to provide an electronic device and a control method of the electronic device, which can prevent the occurrence of the problem.
[0008]
Further, an object of the present invention is to lock a specific type of mounted IC card at a mounting position when detecting that a specific IC card is mounted on a mounting portion, and erroneously move the IC card from the mounting portion. An object of the present invention is to provide an electronic device capable of preventing the electronic device from coming off, and a control method of the electronic device.
[0009]
Further, an object of the present invention is to warn the user to perform locking when the lock unit that locks the IC card to the mounting unit is manual, and to use the IC card in an unlocked state. It is an object of the present invention to provide an electronic device and a control method of the electronic device that prevent the electronic device.
[0010]
Still another object of the present invention is to provide an electronic device and a control method of the electronic device, which can automatically and automatically lock an IC card to a mounting portion to improve operability.
[0011]
[Means for Solving the Problems]
In order to solve the above-described problems, an electronic device according to the present invention selectively includes a device main body and a plurality of types of IC cards provided in a part of the device main body and having at least a common external shape and size on an insertion side. An insertion slot inserted into the main body, a mounting section provided in the main body of the device continuously with the insertion slot, and an IC card inserted from the insertion slot is mounted, and an IC card mounted in the mounting section is held at the mounting position. And a lock unit for locking the card holding unit in a state where the card holding unit holds the IC card.
[0012]
Further, in order to solve the above-described problems, the electronic device according to the present invention includes a device main body and a plurality of types of IC cards provided in a part of the device main body and having at least a common external shape and size on an insertion side. An insertion slot that is selectively inserted, a mounting section that is provided in the device main body continuously with the insertion port, and into which an IC card inserted from the insertion port is mounted, and a type of the IC card mounted in the mounting section. A discriminating unit for discriminating, a lock unit for locking a specific type of IC card mounted on the mounting unit to a mounting position when the discriminating unit detects a specific type of IC card, and a locking unit for mounting the specific IC card on the mounting unit A detection unit that detects whether the IC card is locked at the mounting position; and a warning unit that issues a warning when the detection unit detects that the specific IC card is not locked at the mounting position of the mounting unit. Is provided.
[0013]
Further, in order to solve the above-described problems, the electronic device according to the present invention includes a device main body and a plurality of types of IC cards provided in a part of the device main body and having at least a common external shape and size on an insertion side. An insertion slot that is selectively inserted, a mounting section that is provided in the device main body continuously with the insertion port, and into which an IC card inserted from the insertion port is mounted, and a type of the IC card mounted in the mounting section. A discriminating section for discriminating, a lock section for locking a specific type of IC card mounted on the mounting section to a mounting position when the discriminating section detects a specific type of IC card, and a discriminating section detecting the specific type of IC card And a driving unit that locks the specific IC card at the mounting position of the mounting unit when the locking unit is turned on.
[0014]
Still further, in order to solve the above-described problems, the electronic device control method according to the present invention includes a step of detecting that an IC card is mounted, a step of detecting a type of the mounted IC card, And locking the IC card of a specific type mounted on the mounting portion to the mounting position when the IC card is detected.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a PDA (Personal Digital (Data) Assistants) to which an electronic apparatus according to the present invention is applied will be described with reference to the drawings. As shown in FIG. 1, the PDA 1 to which the present invention is applied is formed such that the entire size can be gripped by a palm. The PDA 1 has a substantially rectangular casing 2, a display section 14 is formed on one main surface of the casing 2, pen pressure is sensed by a pen-type pointing device 3, and an operation input is performed. There is provided a tablet 4 that can be used. Further, the housing 2 is provided with an operation unit 5 including a plurality of push buttons near and on one side of the tablet 4 and the display unit 14 on one main surface. The plurality of push buttons are a power button for turning on / off the main power, a lock button for locking the IC card 8 to the mounting portion, an operation button for changing a cursor position, and the like. Further, an insertion slot 6 into which an IC card 8 serving as a function expansion module is inserted is provided on the front surface of the housing 2, and a mounting portion 7 for the IC card 8 is provided continuously with the insertion slot 6. I have.
[0016]
In the PDA 1, an IC card 8 having various functions can be mounted on the mounting section 7. For example, when the camera IC card 8 is mounted on the mounting section 7, the PDA 1 can store image data captured by the camera portion of the camera IC card in the storage section. Also, when the GPS (Global Positioning System) IC card 8 is mounted, the PDA 1 superimposes the latitude / longitude information input from the GPS IC card on the map information displayed on the display unit 14 and provides the navigation device with the navigation information. It can also be used as Also, when the wireless communication IC card 8 is mounted on the mounting section 7, the PDA 1 can perform wireless communication with other communication devices and exchange data.
[0017]
Next, the circuit configuration of the PDA 1 will be described. As shown in FIG. 2, the PDA 1 has substantially the same configuration as a normal computer, and has a ROM (Read Only Memory) 11 in which a control program is stored. , A RAM (Random Access Memory) 12 in which programs and processing data are loaded, a storage unit 13 for storing data, a display unit 14 for displaying processing information and the like, and a pen-type pointing device 3 for sensing pen pressure. A tablet 4 for performing operation input, an operation unit 5 including a plurality of push buttons, a recording / reproducing processing unit 15 for performing recording / reproducing processing of audio data such as music data, and emitting the reproduced audio data. Speaker 16, an input unit 17 for inputting audio data and the like, and an IC card interface on which the IC card 8 is mounted. (Hereinafter simply referred to as an IC card I / F) 18 and a control unit 19 for controlling the entire operation. These are connected via a bus 20.
[0018]
The ROM 11 stores a control program such as a BIOS (Basic Input Output System) and an operating system. The ROM 11 is configured by a rewritable storage element such as a flash memory and an EEPROM (Electrically Erasable Programmable Read-Only Memory), and is provided so that a stored control program can be updated. The storage unit 13 includes a rewritable storage element such as a flash memory, an EEPROM, and a hard disk, and stores data input from the input unit 17 and the IC card I / F 18. The display unit 14 is configured by an LCD (Liquid Crystal Display) or the like.
[0019]
The recording / reproducing processing unit 15 performs a recording process when saving the data input from the input unit 17 or the IC card I / F 18 in the storage unit 13 and reproduces the data stored in the storage unit 13. Playback processing is performed. For example, when music data is input from the input unit 17 or the IC card I / F 18, the recording / reproducing processing unit 15 may use ATRAC3 (Adaptive Transform Acoustic Coding 3: trademark), MPEG-2 AAC (Motion Picture Expert Group 2 Advance). : Trademarks), MP3 (MPEG-1 Audio Layer3: trademark), TwinVQ (Transform-Domain Weighted Interleaved Vector Quantification: trademark), MS Audio (WMA: WindowsAudio trademark), MSAudio (WMA: WindowsAudio Trademark) Then, the encoded music data can be stored in the storage unit 13. That. Further, when reproducing the music data stored in the recording unit 13, the recording / reproduction processing unit 15 decodes the data encoded by the above-described method read from the storage unit 13, and further converts the digital data into analog data. The signal is converted and output to the speaker 16. The speaker 16 converts the music data converted into analog data into a reproduced sound and emits the sound. Note that the audio data output means may be an earphone or headphones in addition to the speaker 16.
[0020]
The input unit 17 has, for example, an input terminal provided on a side surface or the like of the housing 2, receives digital or analog data from an external device connected by wire or wirelessly, and records the input data in a recording / reproducing processing unit. 15 is output.
[0021]
The IC card I / F 18 has a serial / parallel / parallel / serial interface (hereinafter, referred to as an S / P / P / S interface) and performs data communication with the IC card 8. The IC card I / F 18 is connected to an IC card 8 having various functions to extend the functions of the PDA 1. Specifically, a memory IC card, a camera IC card, a wireless communication IC card, and the like are connected to the IC card interface 18 via a serial interface or a parallel interface. The IC card I / F 18 receives image data captured by the camera IC card when the camera IC card is connected, and stores the input music data in the storage unit 13. Further, when the memory IC card is connected, the IC card I / F 18 functions as an external storage device of the PDA 1, and stores the data stored in the storage unit 13 in the memory IC card 8. The data stored in the memory IC card is read and output from the display unit 14 or the speaker 16. Further, when a wireless communication IC card is connected, the IC card I / F 18 performs data communication with an external device using a method such as Bluetooth (Bluetooth), IrDA (Infrared Data Association) using infrared rays, or IEEE802.11a / b. Be able to do it. Further, when a GPS IC card is connected, the IC card I / F 18 calculates the absolute position information of the PDA 1 by calculating the distance from the GPS satellite.
[0022]
The control unit 19 includes a CPU (Central Processing Unit) and controls the overall operation of the PDA 1. The control unit 19 performs arithmetic processing based on a program stored in the ROM 11. For example, when the IC card 8 is connected to the IC card I / F 18, the control unit 19 detects the type of the IC card 18 and Data communication according to the type is performed.
[0023]
Here, the IC card 8 inserted through the insertion slot 6 of the housing 2 and mounted on the mounting section 7 will be described with reference to FIG. The IC card 8 described here is a GPS IC card, and has a card-shaped connection portion 21 of a substantially rectangular plate shape that forms a housing formed by molding synthetic resin. The card-type connection unit 21 has a built-in printed wiring board on which one or a plurality of semiconductor elements each having a control circuit and the like are mounted. A chamfered portion 22 is provided at one corner on the front side of the card type connecting portion 21 so that the insertion direction of the PDA 1 into the insertion opening 6 can be easily determined. A concave portion 22a is provided on the back surface of the corner portion provided with. The chamfered portion 22 and the recessed portion 22a serve as mounting position regulating portions when the IC card 8 is mounted on the mounting portion 7 of the PDA 1. In addition, on the side surface of the card-type connecting portion 21 on the side where the chamfered portion 22a is provided, a falling-off preventing concave portion 23 whose bottom surface is opened is provided. An engagement projection 49a of a card holding piece 49 made of an elastic piece provided on an ejection member 45 of the connector 41 described later is engaged with the drop prevention recess 23.
[0024]
A terminal portion 24 including a plurality of contacts 26 is formed on one short side of the card-type connecting portion 21, that is, on the lower surface on the front side, so as to extend from the front surface to be the insertion end of the PDA 1 into the insertion port 6 to the bottom surface. Have been. In the terminal portion 24, each contact is partitioned by a partition wall, and a contact 26 is provided on the bottom surface of the engaging recess 25 partitioned by the partition wall. Each engagement recess 25 protects each contact 26 by providing the contact 26 on the bottom surface. In addition, each engagement concave portion 25 is opened on the front side and the bottom surface side of the card type connection portion 21, the connection terminal on the mounting portion 7 side of the PDA 1 enters, and each connection terminal is pressed against each contact 26. It is electrically connected.
[0025]
The contacts 26 are provided, for example, at least ten and include at least a contact for a serial protocol bus state signal BS, a contact for a serial clock SCLK, a contact for one or more data for performing serial or parallel communication, and an IC card 8. Has a contact for insertion detection for detecting that the IC card 8 is mounted on the mounting portion 7, a power supply contact for supplying power to the IC card 8, and the like.
[0026]
The card-type connecting portion 21 configured as described above is a portion accommodated in the mounting portion 7 of the PDA 1, and has the same size and outer shape regardless of the function of the IC card. On the back side of the card type connection unit 21, an antenna unit 28 is provided via a GPS main unit 27. When the IC card 8 is mounted on the mounting section 7 of the PDA 1, the GPS main body 27 and the antenna section 28 are exposed to the outside to receive GPS signals. An antenna 28 is attached to the GPS main body 27 via a hinge 29. The antenna unit 28 is attached via the hinge unit 29, so that the angle can be easily adjusted so that the GPS satellite can be easily detected.
[0027]
The circuit configuration of the GPS IC card 8 configured as described above will be described with reference to FIG. The GPS IC card 8 includes an antenna 31 for detecting a GPS satellite, a GPS signal processing unit 32 for performing reception processing on a signal received by the antenna 31, and a positioning calculation processing unit 33 for performing positioning calculation based on the GPS signal. , The GPS function is realized. The antenna 31 is provided in, for example, the antenna unit 28, and the GPS signal processing unit 32 and the positioning calculation processing unit 33 are provided in the GPS main unit 27.
[0028]
Further, the GPS IC card 8 performs a data communication with the PDA 1 serving as a host device, and thus a serial / parallel / parallel / parallel / serial interface (hereinafter, S / P / P / P / An S interface), a register 35 having various parameters for writing or reading data, a page buffer 36 for temporarily storing data, and a control unit 37 for controlling writing or reading of data. These are provided in a card-type connection unit 21 which is a common part with the IC card 8 having other functions.
[0029]
The GPS signal processing unit 32 performs frequency conversion of each GPS signal received by the antenna 31 from a plurality of GPS satellites, and then outputs each GPS signal to the positioning calculation control unit 33. The positioning calculation control unit 33 detects the position of the IC card 8 from the received GPS signal. Specifically, the antenna 31 receives radio waves including high-precision time signals from a plurality of GPS satellites, and the GPS signal processing unit 32 performs processing such as demodulation on the reception signal received by the antenna 31. Then, the time signal is reproduced, and the time signal is supplied to the positioning calculation control unit 33.
[0030]
The positioning calculation control unit 33 calculates the distance to each GPS satellite based on the time signal, and detects the latitude and longitude of the IC card 8 obtained as an intersection of the spherical surface from the absolute position of each GPS satellite using the distance as a radius. I do. Then, the positioning calculation control unit 33 outputs the latitude / longitude information of the IC card 8 to the control unit 37.
[0031]
The register 35 stores various parameters for writing or reading data, for example, identification data indicating a GPS IC card. This identification data is read out first when the IC card 8 is mounted on the mounting section 7 of the PDA 1 so that the IC card mounted on the mounting section 7 of the PDA 1 can recognize that the IC card is for GPS. To
[0032]
When the IC card 8 is mounted on the mounting section 7 of the PDA 1, the control section 37 transmits latitude / longitude information to the PDA 1 via the S / P / P / S interface 34. The PDA 1 that has received the latitude and longitude information displays the current position of the IC card 8 on the display unit 14.
[0033]
The GPS IC card 8 first outputs identification data of the register 35 to the PDA 1 in response to a request from the PDA 1 in accordance with the serial protocol bus state signal BS and the serial clock SCLK. When the PDA 1 detects that the IC card mounted on the mounting unit 7 is for GPS based on the identification data read from the IC card 8, the PDA 1 enters a GPS mode and receives latitude / longitude information and the like.
[0034]
In the GPS IC card 8 as described above, the card type connection unit 21 is formed in the same size and shape as other types of IC cards in order to give the mounting unit 7 versatility. The GPS function is realized by the GPS main body 27 in which the signal processing unit 32 and the positioning calculation processing unit 33 are incorporated and the antenna unit 28 in which the antenna 31 is incorporated. That is, in an IC card having another function, the function is changed according to the function realized by the function realizing unit including the GPS main unit 27 and the antenna unit 28. For example, in a camera IC card, the GPS main body 27 and the antenna 31 are parts that implement a camera function. That is, the GPS main body 27 and the antenna 31 are provided with an image sensor such as a CCD, an analog / digital converter for converting an analog signal into a digital signal, a signal processing corresponding to color coding, and a JPEG (Joint Photographic Coding Experts Group). ), A GIF (Graphics Interchange Format), a TIF (Tagged Image File Format) or the like. In a camera IC card, a part that realizes a camera function is a part that faces outside from the housing 2 when the part is mounted on the mounting part 7 of the PDA 1. In the camera IC card, the register 35 stores identification data indicating that the camera IC card is used.
[0035]
In the wireless communication IC card, the GPS main body 27 and the antenna unit 28 of the GPS IC card serve as an antenna for performing data communication with other external devices and a communication circuit for performing communication processing and the like. , At least the antenna portion faces the outside from the mounting portion 7 of the PDA 1. The register 35 stores identification data indicating that the card is a wireless communication IC card. Further, the memory IC card is formed in substantially the same size as the cart-type connection portion 21 of the above-described GPS IC card, and is almost entirely stored in the PDA 1. The memory IC card has a card body having a shape substantially the same size as the card-type connecting portion 21, and a flash memory serving as a storage element is provided in the card body. In the memory IC card, the register 35 stores identification data indicating that the memory IC card is used.
[0036]
Here, the connector 41 provided on the mounting portion 7 on which the various IC cards 8 are mounted will be described. As shown in FIGS. 5 and 6, the connector 41 to which the IC card 8 is mounted includes a base 42 that forms a part of the mounting portion 7 of the IC card 8, a cover 43 that is mounted on the base 42, The IC card 8 includes a lid 44 that closes an insertion slot of the IC card 8 and an ejection member 45 of the IC card 8.
[0037]
The base 42 constitutes the mounting portion 7 of the IC card 8, and a connection terminal 47 which engages with the terminal portion 24 provided on the front surface side of the IC card 8 is provided on the rear side. Specifically, ten are provided in correspondence with the number. Each connection terminal 47 is formed of a conductive elastic piece. When the IC card 8 is mounted on the mounting portion 7, the connection terminal 47 engages with each of the engagement recesses 25 of the terminal portion 24 and is elastically contacted with the contact 26. While holding the IC card 8 at the mounting position.
[0038]
The cover 43 attached to the base 42 is formed by bending a sheet metal or the like, and forms a storage section 51 for storing the IC card 8 with the base 42. The card insertion slot 48 of the IC card 8 is provided on the cover 43 on the side opposite to the side on which the connection terminal 47 is provided with the base 42.
[0039]
A cover 44 is attached to the cover 43 in the middle of the cover 43 to prevent foreign matter such as dust from entering the storage portion 51 of the IC card 8, especially near the connection terminal 47. The lid 44 is integrally formed with a lid 52 for closing the storage section 51 and a rotation shaft 53 for rotating the lid 52 by being pressed against the front side of the IC card 8. On the other hand, the cover 43 is provided with a rotation holding portion 54 through which the rotation shaft 53 is inserted. Then, the lid 52 is attached so that the rotation shaft 53 is inserted into the rotation holding part 54 so that the lid 52 is located in the storage part 51.
[0040]
In the lid 44, a coil portion of a torsion coil spring 55 serving as an urging member is wound around the rotation shaft 53, and one arm of the torsion coil spring 55 is locked by the locking portion 55 a of the cover 43, and the other is The arm portion is locked to the lid portion 52 to close the storage portion 51 by an arrow D in FIG. ₁ Biased in the direction. When the IC card 8 is not inserted, the cover 44 closes the storage section 51 by the urging force of the torsion coil spring 55 to prevent foreign matter from entering the inside. When the card is inserted through the card insertion slot 48, as shown in FIG. 6, the IC card 8 is pressed on the front surface of the IC card 8 and resists the urging force of the torsion coil spring 55. ₁ And the terminal portion 24 and the connection terminal 47 can be engaged. That is, when the IC card 8 is inserted, the lid 52 rotates about the rotation shaft 53 supported by the rotation holder 54 until the cover 52 becomes substantially parallel to the cover 43.
[0041]
Further, as shown in FIG. 5, the IC card 8 is ejected from the storage section 51 on one side of the storage section 51 composed of the base 42 and the cover 43 parallel to the insertion / removal direction of the IC card 8. Is provided. The ejection member 45 is formed in a substantially L-shape as a whole, and includes a moving guide portion 56 on a long side and a regulating portion 57 on a short side. The ejection member 45 is the direction of insertion and removal of the IC card 8 in FIGS. ₂ Direction and counter-arrow D ₂ The movement guide portion 56 is formed so as to protrude along the movement direction of the IC card 8 of the base 42 and has a guide groove 59a that engages with the guide protrusion 58a. The restricting portion 57 also has a guide groove 59b formed to protrude along the moving direction of the IC card 8 of the base 42 and to engage with the guide protrusion 58b.
[0042]
The regulating portion 57 is positioned so as to be substantially orthogonal to the insertion direction of the IC card 8, and is positioned on the abutting surface side of the front surface of the IC card 8 so as to engage with the chamfered portion 22 and the recessed portion 22 a of the IC card 8. Is provided. That is, the ejection member 45 positions the IC card 8 by the surface of the movement guide portion 56 facing the side surface of the IC card 8 and the positioning portion 60 of the regulating portion 57, and the IC card 8 is pressed by the guide member. 5 and 6, which are in the insertion direction while being guided by the protrusions 58a, 58b and the guide grooves 59a, 59b. ₂ Move in the direction. Further, between the regulating portion 57 and the rear wall 42a of the base 42, an ejection member 45 is provided by an arrow D in FIG. 5 and FIG. ₂ A compression coil spring 61 serving as an urging member for urging in the direction is provided. One of the compression coil springs 61 is engaged with the concave portion 62 of the regulating portion 57, and the position is regulated.
[0043]
Further, the movement guide section 56 is provided with a card holding piece 49 for holding the inserted IC card 8 on an inner surface facing the side surface of the IC card 8. The card holding piece 49 is formed of an elastic piece such as a leaf spring, and has an engaging projection 49a formed at a tip end thereof to engage with the recess 23 for preventing the card-type connecting portion 21 of the IC card 8 from falling off. . An engagement recess 49b is formed on the opposite side of the engagement protrusion 49a, and a lock portion 81 of a lock mechanism 71 described later is engaged with the engagement recess 49b. The base end of the card holding piece 49 is fixed to the inner surface of the movement guide portion 56 facing the side surface of the IC card 8, and the distal end provided with the engaging projection 49a is located on the inner side. Then, the card holding piece 49 a is displaced outward by being pressed against the side surface of the IC card 8, and is elastically restored by engaging with the falling-off preventing recess 23 of the IC card 8, and holds the IC card 8. . In the IC card 8, the connection terminal 47 is engaged with the engagement concave portion 25 of the terminal portion 24 provided on the front surface of the IC card 8, and the engagement protrusion 49 a of the card holding piece 49 is engaged with the fall-off preventing concave portion 23. Is maintained by doing.
[0044]
As shown in FIGS. 7 and 8, a protrusion 63 is provided on one side wall 42 b of the base 42 so as to protrude inward, and a control spring 64 is attached to the protrusion 63. The control spring 64 is formed of a torsion coil spring, a coil portion 64a is wound around the projection 63, one end 64b is locked to the cover 43, and the other end 64c is the arrow D in FIG. ₃ Biased in the direction. The other end 64c of the control spring 64 is bent inward by approximately 90 ° to form an engaging portion 65. The engaging portion 65 is locked by a locking protrusion 66 provided integrally with the movement guide portion 56 of the eject member 45.
[0045]
The locking projection 66 is formed so as to form a substantially isosceles triangle, and the top 67 is provided on the engaging portion 65 side of the control spring 64 wound around the projection 63 of the side wall 42 b of the base 42. The ejection guide 45 is integrally provided on the side of the side wall 42 b of the base 42 of the movement guide portion 56 so as to be located slightly below the engagement portion 65. On the surface of the cover 43 of the locking projection 66, a cam portion 68 is formed, which is an inclined surface that pushes up the engaging portion 65 of the control spring 64. The cam 68 is formed to be inclined from the top 67 to the cover 43. On the side of the locking projection 66 facing the top 67, an engagement recess 69 is formed in which the engagement portion 65 of the control spring 64 is engaged.
[0046]
In the connector 41 as described above, when the IC card 8 is not inserted, the engaging portion 65 of the control spring 64 engages with the engaging concave portion 69 of the locking protrusion 66 as shown in FIGS. 7 and 8, the ejecting member 45 is moved by the urging force of the compression coil spring 61 in the direction indicated by the arrow D in FIGS. ₃ In the insertion / removal position where the IC card 8 can be inserted / removed.
[0047]
When the IC card 8 is inserted into the storage section 51 with the terminal portion 24 as an insertion end when the eject member 45 is at the insertion / removal position, the front surface of the IC card 8 is moved to the ejection member 45 as shown in FIG. The IC card 8 is positioned by the regulating portion 57 and the positioning portion 60. In addition, the card holding piece 49 provided on the eject member 45 is displaced outward by being pressed against the side surface of the IC card 8, and is elastically restored by engaging with the recess 23 for preventing the IC card 8 from falling off. Hold the IC card 8. Then, when the IC card 8 is further pressed, the IC card 8 is guided by the guide projections 58a, 58b and the guide grooves 59a, 59b against the urging force of the compression coil spring 61, and the arrow D in FIGS. ₂ Move in the direction.
[0048]
Then, the engaging portion 65 of the control spring 64 is moved by the arrow D in FIGS. 8 and 9. ₃ Against the urging force in the direction, it moves from the top 67 to the engagement recess 69 along the cam 68 of the locking projection 66 provided integrally with the movement guide 56 of the eject member 45. Then, when the cam portion 68 ends, the engaging portion 65 of the control spring 64 engages with the engaging concave portion 69 of the locking protrusion 66 by the urging force as shown in FIG. As a result, the ejection member 45 is held at the mounting position where the connection between the contact 26 constituting the terminal 24 of the IC card 8 and the connection terminal 47 is performed. The connection terminal 47 provided on the base 42 is engaged with the engagement recess 25 of the terminal portion 24 of the IC card 8 and is resiliently contacted with the contact 26 so that electrical connection is achieved. Then, the IC card 8 is held at the mounting position by the card holding piece 49 engaged with the recess 23 for preventing falling and the connection terminal 47 engaged with the engaging recess 25 of the terminal portion 24.
[0049]
In this state, the IC card for memory is almost entirely stored in the mounting portion 7, and is exposed outward so as to be able to press when a part of the back side is ejected. As shown in FIG. 10, the GPS IC card 8 has a GPS main body 27 and an antenna section 28 facing the outside from the mounting section 7, and the wireless communication IC card also has an antenna section outside. Is coming. Further, the camera portion of the IC card for the camera is exposed to the outside from the mounting portion 7.
[0050]
When a part of the back side of the IC card 8 is pressed when the IC card 8 is ejected, the ejecting member 45 is pressed against the urging force of the compression coil spring 61 by the arrow D in FIG. ₂ Move in the direction. Then, the engaging portion 65 of the control spring 64 moves in the direction indicated by the arrow D in FIG. ₃ The engagement with the engagement recess 69 of the locking projection 66 is released by the biasing force in the direction, and the engagement projection 66 moves to the base 42 side by the biasing force. When the engagement state between the engagement portion 65 of the control spring 64 and the engagement concave portion 69 of the locking projection 66 is released, the eject member 45 causes the terminal portion 24 to be connected to the connection terminal by the urging force of the compression coil spring 61. Arrow D in FIG. ₂ And returns to the first position where the IC card 8 is inserted and removed. Thereafter, the IC card 8 is pulled out from the mounting section 7.
[0051]
With the connector 41 as described above, the ejection operation of the IC card 8 can be easily performed because it is only necessary to press the back side of the IC card 8 when removing the IC card 8. That is, the connector 41 allows the IC card 8 to be mounted on the mounting portion 7 by pressing once on the back side of the IC card 8 inserted into the insertion slot 6, and the connector 41 can be mounted by the second pressing operation. The IC card 8 can be inserted and removed by a simple operation such as ejecting the IC card 8 at the position.
[0052]
In the above example, the eject mechanism that allows the user to eject the IC card 8 mounted on the mounting unit 7 by pressing the IC card 8 has been described. However, the eject mechanism is operated by the user. An ejection operation member may be provided so that the IC card 8 attached to the attachment section 7 can be ejected by the operation force of the user.
[0053]
By the way, in the mounting section 7 of the PDA 1, the IC card 8 mounted on the mounting section 7 may come off from the mounting section 7 of the information processing apparatus due to an erroneous operation or being caught by something. Further, since the PDA 1 is a portable electronic device, it is used in various states such as being stored in a bag while the IC card 8 is mounted on the mounting section 7, and thus is mounted on the mounting section 7. The inserted IC card 8 is likely to come off the mounting section 7 carelessly. If the IC card 8 is accidentally detached from the mounting section 7, data communication between the IC card 8 and the PDA 1 cannot be reliably performed. Further, if the IC card 8 and the connector 41 are forcibly detached from the mounting portion 7, the IC card 8 and the connector 41 may be broken. Therefore, the PDA 1 is provided with a lock mechanism 71 for preventing the IC card 8 from being detached from the mounting section 7 carelessly.
[0054]
Therefore, as shown in FIG. 11, a lock mechanism 71 that locks the IC card 8 mounted on the mounting section 7 at the mounting position is provided in the housing 2 of the PDA 1, and the lock mechanism 71 is in the locked state of the IC card 8. A detection unit 72 for detecting the presence of the lock mechanism 71 and a switching operation unit 73 for switching the lock mechanism 71 are provided.
[0055]
Here, a lock mechanism 71 for locking the IC card 8 to the mounting section 7 will be described with reference to FIGS. The lock mechanism 71 includes a lock member 76 for locking the card holding piece 49 provided on the eject member 45 of the connector 41, and a compression coil spring 77 serving as an urging member for urging the lock member 79 in the unlocking direction. And a positioning member 78 for positioning the lock member 76 at the lock position and the unlock position.
[0056]
The lock member 76 is provided at its tip with a lock portion 81 that engages with the engagement recess 49 b of the card holding piece 49 provided on the ejection member 45 of the connector 41. The lock portion 81 enters the storage portion 51 of the connector 41 through the insertion hole 79 provided in the side wall 42b of the base 42 and the insertion hole 80 provided in the movement guide portion 56 of the eject member 45, and It engages with the engagement recess 49b of 49. That is, as shown in FIG. 12, when the IC card 8 is not mounted on the mounting portion 7, the engagement protrusion 49 a of the card holding piece 49 is connected to the base end portion fixed to the movement guide portion 56 of the eject member 45. Arrow D in FIG. ₄ It is in a state of being biased in the direction. When the IC card is mounted on the mounting portion 7 and is moved to the mounting position, the engaging projection 49a of the card holding piece 49 engages with the falling-off preventing recess 23 of the card type connecting portion 21, as shown in FIG. Combine. At this time, the lock portion 81 enters the storage portion 51 of the connector 41 through the insertion hole 79 provided in the side wall 42b of the base 42 and the insertion hole 80 provided in the movement guide portion 56 of the eject member 45, The IC card 8 is engaged with the engagement recess 49b of the card holding piece 49, and the tip of the card holding piece 49 is pressed in the direction of the recess 23 to prevent the IC card 8 from being locked.
[0057]
The position at which the lock portion 81 presses the card holding piece 49 is not limited to the engagement recess 49 on the back side of the engagement projection 49 a provided at the tip of the card holding piece 49, You may make it press the base end side of the surface in which 49b was provided.
[0058]
The lock member 76 is provided with a flange-shaped spring locking portion 82 in the middle. One end of the compression coil spring 77 is locked to the outer surface of the side wall 42 b of the base 42, the other end is locked to the spring locking portion 82, and the entire locking member 76 is unlocked by the locking portion 81 of the card holding piece 49. Arrow D in FIG. ₅ Biased in the direction.
[0059]
Further, the lock member 76 is provided with a switching piece 83 for switching the position of the lock member 76 between the locked position and the unlocked position, and a ball 84 is rotatably attached to the tip of the switching piece 83. ing. The sphere 84 provided at the distal end of the switching piece 83 is provided by an elastic body such as a spring member so as to protrude and retract from the distal end of the switching piece 83 so as to be able to get over the partition 87 of the positioning member 78. ing. The switching piece 83 is engaged with a positioning member 78 provided on the housing 2 side to face the switching piece 83. That is, the positioning member 78 is provided with the lock position concave portion 85 and the lock release position concave portion 86 on the side surface parallel to the moving direction of the lock member 76, and the partition portion 87 is provided between the concave portions 85 and 86. Is provided. The lock position concave portion 85 is provided on the side close to the connector 41, and the lock release position concave portion 86 is provided on the side far from the connector 41. The lock member 76 is unlocked by the compression coil spring 77 as described above. ₅ The ball 84 is engaged with the unlocking position concave portion 86 of the positioning member 78. When the lock member 76 moves to the lock position against the urging force of the compression coil spring 84, the sphere 84 rides over the partition 87 and engages with the lock position recess 85 of the positioning member 78, and 81 is held at a lock position for locking the card holding piece 49.
[0060]
Further, the lock member 76 is provided with an operation piece 88 for operating the detection unit 72 on the base end side. The operation portion 88 causes the detection section 72 to be, for example, a pressing type detection switch, and is attached to the housing 2 side. The operation piece 88 presses the detection unit 72 when the lock member 76 is moved to the lock position. The detecting section 72 detects that the lock member 76 has moved to the lock position when the pressed piece is pressed by the operation piece 88, and outputs a detection signal to the control section 19.
[0061]
The operation piece 88 also serves as an attached piece to which the switching operation section 73 is attached, and the switching operation section 73 provided on the operation piece 88 faces outside from an operation opening 89 provided on a side surface of the housing 2, for example. Is pressed and operated by the user.
[0062]
Next, the operation of the lock mechanism 71 configured as described above will be described. First, when the IC card 8 is not mounted on the mounting section 7, as shown in FIG. 5, the connector 41 causes the eject member 45 to move in the direction indicated by an arrow D in FIG. 12 by the urging force of the compression coil spring 61. ₂ In the direction of insertion and removal of the IC card. At this time, as shown in FIG. 12, the card holding piece 49 provided on the ejection member 45 is ₄ And the engaging projection 49 a at the tip protrudes inward of the storage section 51. Further, the lock member 76 is moved by an arrow D in FIG. ₅ And the lock portion 81 at the distal end is retracted to the outside of the connector 41 from the insertion hole 79 of the eject member 45. That is, the ejection member 45 is in a state where it can be moved to the mounting position of the IC card 8 (the arrow D in FIG. 12). ₂ direction). The sphere 84 provided on the switching piece 83 is engaged with the unlock position concave portion 86 of the positioning member 78, and holds the lock member 76 at the unlock position. Therefore, the switching operation unit 73 protrudes from the side surface of the housing 2 and is in a state where the user can perform a pressing operation. In this state, the insertion port 80 of the eject member 54 and the insertion hole 79 provided in the side wall 42b of the base 42 are misaligned, and the lock portion 81 abuts against the movement guide portion 56 of the eject member 45 and locks. The member 76 is the opposite arrow D in FIG. ₅ It cannot move in the direction. That is, the user is in a state where the switching operation unit 73 cannot be pressed. Further, the operation piece 88 is separated from the pressed element of the detection unit 72 and is in an off state.
[0063]
Then, as shown in FIG. 6, the IC card 8 is inserted into the mounting portion 7 through the insertion slot 6, and the engaging protrusion 49a of the card holding piece 49 provided on the ejecting member 45 engages. When the IC card 8 is pressed and moved to the mounting position, the contact 26 constituting the terminal part 24 of the IC card 8 and the connection terminal 47 are electrically connected. In this state, the position of the insertion port 80 of the eject member 54 and the position of the insertion hole 79 provided in the side wall 42b of the base 42 match, and the lock member 76 can be moved. Further, the positions of the insertion holes 79 and 80 coincide with the positions of the engagement recesses 49b at the tip end of the card holding piece 49 provided in the eject member 45 and engaged with the recess 23 for preventing the IC card 8 from falling off.
[0064]
When the user presses the switching operation portion 73 protruding from the side surface of the housing 2, the lock member 76 is pressed against the urging force of the compression coil spring 77 by the arrow D in FIG. ₅ Moved in the direction. Then, the sphere 84 provided on the switching piece 83 gets over the partition 87 and engages with the locking position concave portion 85 of the positioning member 78, and holds the locking portion 81 at the locking position for locking the card holding piece 49. When the lock member 76 is held at the lock position, the lock portion 81 provided at the distal end of the lock member 76 is inserted through the insertion hole 80 provided in the insertion port 80 of the eject member 54 and the side wall 42 b of the base 42. To enter the storage section 51 of the connector 41. Then, the lock portion 81 engages with the engagement concave portion 49b of the card holding piece 49 provided on the ejection member 45, and pushes the card holding piece 49 in the direction indicated by the arrow D in FIG. ₄ Press in the direction. The card holding piece 49 is pressed by the lock portion 81 in the direction of the drop-out preventing recess 23 so that the engaging projection 49 a provided on the opposite side of the engaging recess 49 b prevents the card-type connecting portion 21 from dropping. Engage and lock the recess 23 securely.
[0065]
The lock member 76 moved to the lock position presses the pressed member of the detection unit 72 with the operation piece 88, and the detection unit 72 detects that the lock member 76 has moved to the lock position, and outputs a detection signal to the control unit. 19 is output. For example, when the detection signal is input from the detection unit 72, the control unit 19 starts data communication with the IC card 8 mounted on the mounting unit 7. In addition, when a detection signal is not input from the detection unit 72 in a state where the IC card 8 is mounted on the mounting unit 7, the control unit 19 performs a warning display urging a lock on the display unit 14 or the like.
[0066]
When the lock is released, the switching operation unit 73 is operated by the arrow D in FIG. ₅ When operated in the direction, the sphere 84 provided on the switching piece 83 gets over the partition 87 and engages with the lock position concave portion 85 of the positioning member 78 to the lock release position concave portion 86 to maintain the lock release position. I do. By this movement, the detection unit 72 is released from being pressed by the operation piece 88 and is turned off. As a result, the control unit 19 detects that the lock member 76 has moved to the unlock position, and displays, for example, on the display unit 14 that the IC card 8 can be ejected.
[0067]
In the lock mechanism 71 configured as described above, when the IC card 8 is moved to the mounting position of the mounting portion 7, the card holding piece 49 holding the falling-off preventing concave portion 23 is locked. Therefore, it is possible to prevent the IC card 8 mounted on the mounting section 7 from being accidentally detached from the mounting section 7.
[0068]
Meanwhile, in addition to the memory IC card as described above, a GPS IC card, a wireless communication IC card, and a camera IC card are mounted on the mounting section 7 of the PDA 1 as shown in FIG. In an IC card for GPS, wireless communication, camera, or the like, a portion that realizes the function protrudes outside from an insertion port 6 provided in the housing 2 of the PDA 1. For this reason, the IC card 8 mounted on the mounting unit 7 may come off from the mounting unit 7 of the information processing apparatus due to an erroneous operation or being caught by something. Further, since the PDA 1 is a portable electronic device, it is used in various states such as being stored in a bag while the IC card 8 is mounted on the mounting section 7 and mounted on the mounting section 7. The IC card 8 is easily removed from the mounting section 7 carelessly. If data is being communicated between the PDA 1 and the IC card 8 mounted on the mounting section 7 and the IC card 8 mounted on the mounting section is removed, the data being communicated will be reliably transmitted. You will not be able to transfer. Further, if the IC card 8 and the connector 41 are forcibly detached from the mounting portion 7, the IC card 8 and the connector 41 may be broken.
[0069]
Therefore, in the PDA 1, when the IC card 8 for GPS, wireless communication, camera, etc. protruding to the outside is mounted on the mounting portion 7, the IC card mounted on the mounting portion 7 by the lock mechanism 71 described above. 8 is locked. This will be described with reference to FIG. 14. In step S1, the control unit 19 detects whether the IC card 8 is mounted on the mounting unit 7 based on a program stored in the ROM 11. Specifically, when the IC card 5 is inserted through the insertion slot 6 and moved to the mounting position of the mounting unit 7, the control unit 19 controls the plurality of contacts 26 constituting the terminal unit 24 of the mounted IC card 8. When the detected potential is a predetermined potential, it is determined that the IC card 8 is securely mounted on the mounting portion 7, and the process proceeds to step S2. Step S1 is repeated.
[0070]
In step S2, the control unit 19 accesses the IC card 8 mounted on the mounting unit 7 and reads various parameters for writing or reading data stored in the register 35. In step S3, the control unit 19 extracts identification data indicating the type of the IC card 8 included in the read data, and determines the type of the IC card 8 mounted on the mounting unit 7 based on the read identification data. Is determined. Specifically, the control unit 19 determines whether the IC card 8 mounted on the mounting unit 7 is for memory, for GPS, for wireless communication, or for camera, based on the extracted identification data. Is determined. The control unit 19 proceeds to step S4 when detecting a specific type of IC card 8, and proceeds to step S7 when detecting no specific type of IC card 8. Specifically, when the control unit 19 is an IC card whose rear side protrudes outside when attached to the PDA 1, for example, an IC card 8 for GPS, wireless communication, camera, or the like, the process proceeds to step S6, and If it is an IC card, that is, if it is a memory IC card, the process proceeds to step S6 to start writing or reading data.
[0071]
In step S4, the control unit 19 determines whether a detection signal has been input from the detection unit 72 included in the lock mechanism 71. That is, when the lock portion 81 of the lock member 76 locks the card holding piece 49 provided on the eject member 45 of the connector 41 and locks the IC card 8 at the mounting position of the mounting portion 7, The pressing element is pressed by the operation piece 88 and is in an on state, and outputs a detection signal to the control unit 19. The control unit 19 determines whether the lock mechanism 71 is locked at the mounting position by detecting the detection signal from the detection unit 72. When the lock mechanism 71 detects that the IC card 8 is locked at the mounting position of the mounting unit 7, the control unit 19 proceeds to step S <b> 7, and the lock mechanism 71 determines that the IC card 8 has mounted the mounting unit 7. When it is detected that the position is not locked, the process proceeds to step S5.
[0072]
In step S5, the control unit 19 displays a warning on the display unit 14 to urge the lock mechanism 71 to lock the IC card 8 at the mounting position of the mounting unit 7. The warning may be a visual warning or a warning sound may be emitted from the speaker 16. Then, after performing the warning display for a predetermined period, the control unit 19 performs the processing from step S4, that is, determines again whether the lock mechanism 71 locks the IC card at the mounting position.
[0073]
In step S7, the control unit 19 starts data communication with the IC card mounted on the mounting unit 7. That is, when the control unit 19 determines in step S3 that the IC card 8 mounted on the mounting unit 7 is for a memory, the control unit 19 outputs the stored data from the PDA 1 to the memory IC card 8, and The data selected by the section 5 is read. When the IC card 8 mounted on the mounting unit 7 is a GPS IC card, the control unit 19 receives the latitude and longitude information output from the GPS IC card and displays the information on the display unit 14. Display the current location on the map information. Further, when the IC card mounted on the mounting unit 7 is for a camera, the control unit 19 displays on the display unit 14 image data captured by the camera unit of the camera IC card. Further, when the wireless communication IC card 8 is mounted on the mounting unit 7, the control unit 19 transmits data stored in the storage unit 13 or the like to another external device and transmits the data from the external device. Received data.
[0074]
When the user ejects the IC card 8, the user first operates the switching operation unit 73 by the arrow D in FIG. ₅ Operate in the direction. By this operation, the sphere 84 provided on the switching piece 83 rides over the partition portion 87 and engages with the lock position concave portion 85 of the positioning member 78 to the lock release position concave portion 86, and the lock member 76 is moved to the lock release position. Is held. As a result, the lock portion 81 retracts from the insertion holes 79 and 80 to the outside of the storage portion 51, and moves the eject member 45 to the arrow D in FIG. ₂ Make it movable in the direction. At the same time, the detection unit 72 is turned off, and when the control unit 19 detects that the detection unit 72 is turned off, the display unit 14 displays a guide indicating that the IC card 8 can be ejected. Thereafter, the user presses a part of the back side of the IC card 8. Then, the ejection member 45 is opposed to the biasing force of the compression coil spring 61 by the arrow D in FIG. ₂ Move in the direction. Then, the engaging portion 65 of the control spring 64 moves in the direction indicated by the arrow D in FIG. ₃ The engagement with the engagement recess 69 of the locking projection 66 is released by the biasing force in the direction, and the engagement projection 66 moves to the base 42 side by the biasing force. When the engagement state between the engagement portion 65 of the control spring 64 and the engagement concave portion 69 of the locking projection 66 is released, the eject member 45 causes the terminal portion 24 to be connected to the connection terminal by the urging force of the compression coil spring 61. Arrow D in FIG. ₂ And returns to the first position where the IC card 8 is inserted and removed. Thereafter, the IC card 8 is pulled out from the mounting section 7.
[0075]
In the above processing example, the type of the IC card 8 is determined, and in particular, a GPS IC card or the like that is more likely to be detached from the mounting unit 7 than the memory IC card 8 that is almost entirely stored in the mounting unit 7. When the IC card 8 protruding from the housing 2 is mounted on the mounting portion 7 at the time of mounting, the lock mechanism 71 determines whether or not the IC card 8 is locked at the mounting position. Is allowed. Therefore, in the above processing, the IC card 8 mounted on the mounting unit 7 is detached from the mounting unit of the information processing device due to an erroneous operation or being caught by something, and the data being communicated is damaged. Further, it is possible to prevent the IC card 8 and the connector 41 from being damaged.
[0076]
Note that, in the lock mechanism 71 described above, an example in which the lock member 76 is manually moved using the switching operation unit 73 has been described. However, the lock member 76 is moved using a drive unit that uses a drive motor as a drive source. You may make it. In this case, the operation unit 5 is further provided with an operation button for turning the drive unit on and off. When a lock signal is input from the operation button, the control unit 19 drives the drive unit and locks the lock member 76. What is necessary is just to move between a position and an unlocking position. The configuration of the lock member 76 and the drive section in this case may be the same as the configuration of the lock member 92 and the drive section 93 shown in FIG. 15 described below.
[0077]
When the lock is automatically and automatically switched, the lock mechanism may be configured as shown in FIG. The lock mechanism 91 includes a lock member 92 that locks the card holding piece 49 provided on the eject member 45 of the connector 41, and a drive unit 93 that moves the lock member 92.
[0078]
The lock member 92 is provided at its tip with a lock portion 94 that engages with the engagement recess 49 b of the card holding piece 49 provided on the eject member 45 of the connector 41. The lock portion 94 enters the housing portion 51 of the connector 41 through the insertion hole 79 provided in the side wall 42b of the base 42 and the insertion hole 80 provided in the movement guide portion 56 of the eject member 45, and It engages with the engagement recess 49b of 49. That is, when the IC card 8 is not mounted on the mounting portion 7, as shown in FIG. 15, the engagement protrusion 49 a of the card holding piece 49 is connected to the base end portion fixed to the movement guide portion 56 of the ejection member 45. 15, the arrow D in FIG. ₄ It is in a state of being biased in the direction. When the IC card is mounted on the mounting portion 7 and is moved to the mounting position, the engaging protrusion 49 a of the card holding piece 49 engages with the falling-off preventing concave portion 23 of the card type connecting portion 21. At this time, the lock portion 94 enters the storage portion 51 of the connector 41 through the insertion hole 79 provided in the side wall 42b of the base 42 and the insertion hole 80 provided in the movement guide portion 56 of the eject member 45, The IC card 8 is engaged with the engagement recess 49b of the card holding piece 49, and the tip of the card holding piece 49 is pressed in the direction of the recess 23 to prevent the IC card 8 from being locked.
[0079]
At the base end side of the lock portion 94, a lock portion 94 is attached by an arrow D in FIG. ₅ Direction and counter-arrow D ₅ A moving plate 95 for moving in the direction is provided. The moving plate 95 is provided with a rack gear 96 along the moving direction. The drive unit 93 is connected to the rack gear 96. The drive unit 93 includes a drive motor 97 serving as a drive source, and one or a plurality of transmission gears 98 for transmitting the driving force of the drive motor 97 to the rack gear 96. The drive motor 97 drives in the forward and reverse directions based on the control of the control unit 19. When the drive motor 97 is driven to rotate forward, the moving plate 95 is in a direction to lock the IC card 8 at the mounting position. ₅ The lock is released when the drive motor 97 is driven in the reverse direction and the drive motor 97 is driven in reverse. ₅ Moved in the direction.
[0080]
The moving plate 95 is provided with a guide hole 99 along the moving direction. A guide shaft 100 provided in the housing 2 is engaged with the guide hole 99, and a movement direction and a movement range are regulated. The moving plate 95 is guided by a guide piece 101 provided on the housing 2.
[0081]
In the lock mechanism 91 configured as described above, when the lock member 92 is moved by the drive unit 93 and the IC card 8 is moved to the mounting position of the mounting unit 7, the lock unit 91 holds the drop-off preventing recess 23. The card holding piece 49 is locked. Therefore, it is possible to prevent the IC card 8 mounted on the mounting section 7 from being accidentally detached from the mounting section 7. Further, in the lock mechanism 91, since the driving section 92 can automatically lock the IC card 8 at the mounting position, the operability can be improved more than the lock mechanism 71 described above.
[0082]
Also, even when such a lock mechanism 91 is used, the control unit 19 is described above only when a specific IC card 8 for GPS, wireless communication, camera, etc. is mounted on the mounting unit 7. The lock mechanism 91 locks the IC card 8 mounted on the mounting section 7. This will be described with reference to FIG. 16. In step S11, the control unit 19 detects whether or not the IC card 8 is mounted on the mounting unit 7 based on a program stored in the ROM 11. Specifically, when the IC card 5 is inserted through the insertion slot 6 and moved to the mounting position of the mounting unit 7, the control unit 19 controls the plurality of contacts 26 constituting the terminal unit 24 of the mounted IC card 8. The potential of the insertion detection contact inside is detected, and when the detected potential is a predetermined potential, it is determined that the IC card 8 is securely mounted on the mounting portion 7 and the process proceeds to step S12. Step S11 is repeated.
[0083]
In step S12, the control unit 19 accesses the IC card 8 mounted on the mounting unit 7 and reads various parameters for writing or reading data stored in the register 35. In step S13, the control unit 19 extracts identification data indicating the type of the IC card 8 included in the read data, and determines the type of the IC card 8 mounted on the mounting unit 7 based on the read identification data. Is determined. Specifically, the control unit 19 determines whether the IC card 8 mounted on the mounting unit 7 is for memory, for GPS, for wireless communication, or for camera, based on the extracted identification data. Is determined. Then, the control unit 19 proceeds to step S14 when detecting the specific type of IC card 8, and proceeds to step S15 when not detecting the specific type of IC card 8. Specifically, when the control unit 19 is an IC card whose rear side protrudes to the outside when attached to the PDA 1, for example, an IC card 8 for GPS, wireless communication, camera, or the like, the process proceeds to step S14. If it is an IC card, that is, if it is a memory IC card, the process proceeds to step S15 to start writing or reading data.
[0084]
When the IC card 8 mounted on the mounting unit 7 is a specific IC card 8, the control unit 19 drives the drive motor 97 included in the drive unit 93 to rotate forward in step S14. Then, the lock member 76 is moved via the transmission gear 98 to the opposite arrow D in FIG. ₅ Move a predetermined distance in the direction. Thereby, the lock portion 94 enters the storage portion 51 of the connector 41 through the insertion hole 79 provided in the side wall 42b of the base 42 and the insertion hole 80 provided in the movement guide portion 56 of the eject member 45, The IC card 8 is engaged with the engagement recess 49b of the card holding piece 49, and the tip of the card holding piece 49 is pressed in the direction of the recess 23 to prevent the IC card 8 from being locked.
[0085]
When the locking of the IC card 8 to the mounting position is completed, the control unit 19 starts data communication with the IC card mounted on the mounting unit 7 in step S15. That is, when the control unit 19 determines in step S13 that the IC card 8 mounted on the mounting unit 7 is for a memory, the control unit 19 outputs the stored data from the PDA 1 to the memory IC card 8, and The data selected by the section 5 is read. When the IC card 8 mounted on the mounting unit 7 is a GPS IC card, the control unit 19 receives the latitude and longitude information output from the GPS IC card and displays the information on the display unit 14. Display the current location on the map information. Further, when the IC card mounted on the mounting unit 7 is for a camera, the control unit 19 displays on the display unit 14 image data captured by the camera unit of the camera IC card. Further, when the wireless communication IC card 8 is mounted on the mounting unit 7, the control unit 19 transmits data stored in the storage unit 13 or the like to another external device and transmits the data from the external device. Received data.
[0086]
Note that when ejecting the IC card 8, the user first inputs an ejection command using the operation unit 5. The control unit 19 to which the ejection command has been input first drives the drive motor 97 in the reverse direction, and moves the lock member 92 to the arrow D in FIG. ₅ Move in the direction. As a result, the lock portion 94 retracts from the insertion holes 79 and 80 to the outside of the storage portion 51, and moves the eject member 45 to the position indicated by the arrow D in FIG. ₂ Make it movable in the direction. When the control unit 19 moves the lock member 92 to the unlock position, the control unit 19 displays a guide to the effect that the IC card 8 can be ejected on the display unit 14. Thereafter, the user presses a part of the back side of the IC card 8. Then, the ejection member 45 is opposed to the biasing force of the compression coil spring 61 by the arrow D in FIG. ₂ Move in the direction. Then, the engaging portion 65 of the control spring 64 moves in the direction indicated by the arrow D in FIG. ₃ The engagement with the engagement recess 69 of the locking projection 66 is released by the biasing force in the direction, and the engagement projection 66 moves to the base 42 side by the biasing force. When the engagement state between the engagement portion 65 of the control spring 64 and the engagement concave portion 69 of the locking projection 66 is released, the eject member 45 causes the terminal portion 24 to be connected to the connection terminal by the urging force of the compression coil spring 61. Arrow D in FIG. ₂ And returns to the first position where the IC card 8 is inserted and removed. Thereafter, the IC card 8 is pulled out from the mounting section 7.
[0087]
In the above processing example, the type of the IC card 8 is determined, and in particular, the GPS IC card or the like that is more likely to be detached from the mounting unit 7 than the memory IC card 8 that is almost entirely stored in the mounting unit 7 The lock mechanism 71 automatically locks the IC card 8 at the mounting position when the IC card 8 protruding from the housing 2 is mounted on the mounting portion 7 at the time of mounting, and permits data communication only during locking. I am trying to do it. Therefore, in the above processing, the IC card 8 mounted on the mounting unit 7 is detached from the mounting unit of the information processing device due to an erroneous operation or being caught by something, and the data being communicated is damaged. Further, it is possible to prevent the IC card 8 and the connector 41 from being damaged.
[0088]
In the above description, when the IC card 8 for GPS, wireless communication, camera, or the like is mounted on the mounting unit 7, these types of IC cards 8 are attached to the mounting position of the mounting unit 7 by the lock mechanisms 71 and 91. Although the description has been made by taking as an example the case where the lock is performed, the lock may be performed for the memory IC card 8 or for the specific memory IC card 8. For example, memory IC cards include a low-capacity memory card having a storage capacity of 8 MB (megabyte) or 16 MB and a high-capacity memory card having a storage capacity of 512 MB or 1 GB (gigabyte). High-capacity IC cards store a lot of data and are expensive. Therefore, even in the case of such a high-capacity memory IC card, the data may be locked by the lock mechanisms 71 and 91 at the time of mounting to prevent the data, the IC card and the connector from being damaged.
[0089]
In the above description, the PDA 1 which is a portable electronic device has been described as a specific example of the present invention, but the present invention can also be applied to a stationary information processing apparatus.
[0090]
【The invention's effect】
According to the present invention, since the IC card is locked at a position where data communication is possible, it is possible to prevent the IC card from being detached during data communication, interrupting data communication in the middle, or damaging the connector or the IC card. Can be.
[Brief description of the drawings]
FIG. 1 is a perspective view of a PDA to which the present invention is applied.
FIG. 2 is a block diagram of the PDA.
FIG. 3 is a perspective view of a GPS IC card mounted on the PDA.
FIG. 4 is a block diagram of the GPS IC card.
FIG. 5 is a perspective view of a connector constituting a mounting portion of the PDA, showing an IC card not inserted.
FIG. 6 is a perspective view of the connector, showing a state where an IC card is mounted.
FIG. 7 is a perspective view illustrating a configuration of an eject member incorporated in the connector.
FIG. 8 is a side view showing a state of an ejection member before an IC card is inserted.
FIG. 9 is a side view showing a state of an eject member when an IC card is inserted.
FIG. 10 is a plan view showing a state in which a GPS IC card is mounted on the PDA.
FIG. 11 is a diagram illustrating a lock mechanism of an IC card provided in the PDA.
FIG. 12 is a view for explaining details of the lock mechanism, and shows a state in which an IC card is not inserted.
FIG. 13 is a diagram illustrating details of the lock mechanism, and shows a state where an IC card is inserted.
FIG. 14 is a flowchart illustrating an operation of a control unit when an IC card is inserted.
FIG. 15 is a diagram illustrating a modification of the lock mechanism.
16 is a flowchart illustrating the operation of the lock mechanism shown in FIG.
[Explanation of symbols]
1 PDA, 2 housing, 3 pointing device, 4 tablet, 5 operation section, 6 insertion slot, 7 mounting section, 8 IC card, 21 card type connection section, 22 chamfered section, 23 dropout prevention recess, 24 terminal section, 25 engagement recess, 26 contacts, 27 GPS main body, 28 antenna, 29 hinge, 41 connector, 42 base, 43 cover, 44 lid, 45 eject member, 47 connection terminal, 49 card holding piece, 49a engagement Projecting portion, 49b engaging concave portion, 71 locking mechanism, 72 detecting portion, 73 switching operation portion, 76 locking member, 77 compression coil spring, 78 positioning member, 79, 80 insertion hole, 81 locking portion, 82 spring locking portion, 83 Switching piece, 84 sphere, 85 Lock position recess, 86 Lock release position recess, 87 Partition, 88 Operation piece

Claims (21)

The device itself,
An insertion slot provided in a part of the device main body, wherein a plurality of types of IC cards having at least a common outer shape and size on an insertion side are selectively inserted;
A mounting portion provided in the device main body continuously with the insertion slot, to which an IC card inserted from the insertion slot is mounted;
A card holding unit for holding an IC card mounted on the mounting unit at a mounting position;
An electronic device comprising: a lock unit configured to lock the IC card in a state where the card holding unit holds the IC card. The electronic device according to claim 1, further comprising a switching operation unit configured to switch between a state in which the lock unit locks the card holding unit and a state in which the card holding unit is not locked. The electronic device according to claim 2, further comprising a detection unit configured to detect a state in which the lock unit locks the card holding unit. The electronic device according to claim 1, further comprising a drive unit that switches the lock unit to a state in which the card holding unit is locked. The electronic device according to claim 1, wherein the card holding portion is formed of an elastic piece provided with a protrusion that engages with a concave portion provided in the IC card when the IC card is mounted on the mounting portion. 6. The lock portion according to claim 5, wherein the locking portion presses the elastic piece in a direction of the IC card mounted on the mounting portion to lock the elastic piece in a state where the elastic piece holds the IC card at a mounting position. Electronics. The device itself,
An insertion slot provided in a part of the device main body, wherein a plurality of types of IC cards having at least a common outer shape and size on an insertion side are selectively inserted;
A mounting portion provided in the device main body continuously with the insertion slot, to which an IC card inserted from the insertion slot is mounted;
A determining unit that determines a type of the IC card mounted on the mounting unit;
A lock unit that locks a specific type of IC card mounted on the mounting unit to a mounting position when the determination unit detects a specific type of IC card;
A detection unit that detects whether the lock unit locks the specific IC card at a mounting position of the mounting unit;
An electronic apparatus comprising: a warning unit that issues a warning when the detection unit detects that the lock unit has not locked the specific IC card at the mounting position of the mounting unit. Further, a display unit for displaying information is provided,
The electronic device according to claim 7, wherein the warning unit displays a warning on the display unit. Further, a card holding portion for holding the IC card mounted on the mounting portion at a mounting position is provided,
The electronic device according to claim 7, wherein the lock unit locks the card holding unit in a state where the IC card is held. The electronic device according to claim 7, further comprising a switching operation unit configured to switch between a state in which the lock unit locks the card holding unit and a state in which the card holding unit is not locked. The electronic device according to claim 7, wherein the specific IC card has an image sensor. The electronic device according to claim 7, wherein the specific IC card has an antenna element. The electronic device according to claim 7, wherein the specific IC card has a storage element. The device itself,
An insertion slot provided in a part of the device main body, wherein a plurality of types of IC cards having at least a common outer shape and size on an insertion side are selectively inserted;
A mounting portion provided in the device main body continuously with the insertion slot, to which an IC card inserted from the insertion slot is mounted;
A determining unit that determines a type of the IC card mounted on the mounting unit;
A lock unit that locks a specific type of IC card mounted on the mounting unit to a mounting position when the determination unit detects a specific type of IC card;
An electronic device comprising: a drive unit that locks the specific IC card at a mounting position of the mounting unit when the determination unit detects a specific type of IC card. Further, a card holding portion for holding the IC card mounted on the mounting portion at a mounting position is provided,
15. The electronic device according to claim 14, wherein the lock unit locks the card holding unit in a state where the IC card is held. 15. The electronic device according to claim 14, wherein the specific IC card has an image sensor. The electronic device according to claim 14, wherein the specific IC card has an antenna element. 15. The electronic apparatus according to claim 14, wherein the specific IC card has a storage element. Detecting that the IC card has been inserted;
Detecting the type of the mounted IC card;
A step of, when a specific type of IC card is detected, locking the specific type of IC card mounted on the mounting portion at a mounting position. 20. The control method of an electronic device according to claim 19, further comprising a step of displaying a warning on a display unit when it is detected that the specific type of IC card mounted on the mounting unit is not locked at the mounting position. Further, when the specific type of IC card mounted on the mounting section is a specific type of IC card, a driving section is driven to lock the locking section to the specific IC card at the mounting position of the mounting section. 20. The method for controlling an electronic device according to claim 19, further comprising the step of:

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