JP2006330971A - Card slot device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a card slot device capable of enhancing electrostatic countermeasures by making use of an existing mechanical switch. <P>SOLUTION: An insertion determining section 47 for determining insertion of a discharge lever 43 is utilized. The discharge lever 43 can be grounded on a solid GND via the mechanical switch by inserting the discharge lever 43. A lever-driven transmission plate 44 is conducted to the solid GND through a mechanical switch conducting wire 46 in this mechanical switch. The discharge lever 43 also has a conducting section, and a conducting section retained by the lever-driven transmission plate 44 of the discharge lever 43 is electrically conducted while the discharge lever 43 is inserted and is grounded on the solid GND. The card slot device 40 has a structure to be conducted to the discharge lever 43 via a part of a shield 41 at either of conducting sections on a card C while the card C is mounted, and the card C is grounded via the discharge lever 43 and mechanical switch by grounding on the solid GND. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a card slot device, and more particularly to a card slot device with a countermeasure against static electricity for mounting a card type recording medium.

  Card-type recording media such as PC cards, IC cards, memory cards, and font cards are installed in card slot devices that are built in or externally installed in devices such as PCs and printers, and are connected to electrical circuits inside the devices via terminals. Thus, information can be read from or read from and written to the recording medium. As other card-type electronic devices, there are various devices such as a LAN card, an IEEE 1394 interface card, a USB interface card, and a card slot device corresponding to each device is prepared. In addition, as a card slot device, one that can handle a plurality of types of card-type electronic devices has been proposed.

  These card-type electronic devices can be easily attached and detached by the user. When a user who is charged with static electricity in the body inserts the card-type electronic device from the insertion slot of the card slot device, the static electricity is It discharges to the electrode part (terminal) of the card slot device through the electronic device. As a result, a voltage of several kV may be applied to an electric circuit or IC connected to the end of the terminal. Further, not only static electricity of the body but also static electricity is generated by the insertion / removal of the card itself, and similarly, a voltage is applied to an electric circuit, IC or the like.

  FIG. 5 is a diagram showing an example of the configuration of a card slot device with a countermeasure against discharge according to the prior art, in which C is a card as an example of a card-type electronic device, 60 is a card slot device, 61 is a shield, 62 Is a grounding wire, 63 is a discharge lever, 64 is a lever drive transmission plate, 65 is an insertion detection unit (push switch), 65a is an insertion detection transmission unit (button), 65b is a movable contact plate, 67 is an insertion determination unit, and 68 is A connection determination unit, 68a is a connection determination line, and 69 is a card detection unit.

  The card slot device 60 includes a connector having a plurality of connection terminals B, b, etc. for connection to a plurality of connection terminals A, a, etc. on the card C side. This connector is usually provided with a shield 61 for reducing the electromagnetic influence on the device side in which the card slot device 60 is incorporated.

  Further, when the card C is inserted, the connection terminal a is electrically connected to the connection terminal b whose one end is grounded to GND, and a part of the current due to the discharge of the charged static electricity flows to the card GND. . In the conventional card slot device, such an electrostatic countermeasure is taken. The connection terminal A is electrically connected to the connection terminal B when the card C is inserted, and the presence / absence of this electrical connection is determined by the connection determination unit 68 (other signal processing via other connection terminals). This is usually determined along with the part to be performed).

  The card slot device 60 has a discharge lever 63 for performing an operation of discharging the card C. When the discharge lever 63 is pushed in, the card slot device 60 pushes out the discharge lever 63. A discharge mechanism for discharging the card C by being pushed in in the pushed state is provided. The ejection lever 63 can eject the card C by being inserted in the same direction as the insertion direction of the card C. As described above, the card slot device 60 includes a discharge mechanism that discharges the card C by inserting (pushing) the discharge lever 63 in a state where the discharge lever 63 is inserted.

  Further, the card slot device 60 has a mechanical switch that switches the movable contact plate 65b to the ground (solid GND) side by inserting the discharge lever 63, and whether or not the mechanical switch is switched to the ground (solid GND) side. And an insertion determination unit 67 that determines whether or not the discharge lever 63 is inserted. This mechanical switch includes a push switch 65 including a button 65a and a movable contact plate 65b, and a lever drive transmission plate 64.

  Then, the insertion determination unit 67 determines whether the card C is inserted or not by grounding / non-grounding of the mechanical switch (grounding / non-grounding of the movable contact plate 65b). Accordingly, in this insertion detection means, the insertion lever 63 is in the inserted state when it is pushed in, and the insertion determination unit 67 determines that a card is present (however, there is a case where the card C is not actually inserted). When the ejection lever 63 is inserted, it is turned off, and the insertion determination unit 67 determines that there is no card. The determination result by the insertion determination unit 67 is transmitted to the card detection unit 69, and the card detection unit 69 determines whether the card C is attached or detached together with the determination result by the connection determination unit 68.

  If the card connection determination based on the insertion / extraction of the ejection lever 63 is not performed, the data may be destroyed when the card is suddenly removed by the user during data communication. The card C can be ejected only after the eject lever 63 is inserted a little, and the eject lever 63 is pushed in with the eject lever 63 slightly ejected. By providing such a mechanism, data can be prevented from being destroyed and the card can be removed in a safe state.

  FIG. 6 is a diagram showing another configuration example of a card slot device with a countermeasure against discharge according to the prior art, in which C is a card as an example of a card type electronic device, 70 is a card slot device, 71 is a shield, 72 is a grounding wire, 73 is a discharge lever, 74 is a lever drive transmission plate, 75 is an insertion detection unit (push switch), 75a is an insertion detection transmission unit (button), 75b is a movable contact plate, 77 is an insertion determination unit, 78 Is a connection determination unit, 78a is a connection determination line, and 79 is a card detection unit.

  The conventional example described with reference to FIG. 6 enables grounding from the conductive portion k on the side of the card C to the solid GND in the conventional example described with reference to FIG. . Therefore, the conventional example of FIG. 6 can disperse the discharge as much as the side portion GND is added, compared to the conventional example of FIG.

  Also, a PC card detection device that prevents erroneous determination of detection of PC card detachment due to static electricity has been proposed (see, for example, Patent Document 1). The PC card detection device described in Patent Document 1 determines whether or not a PC card is mounted by detecting the level relationship between two detection signals. Then, when it is not determined that the PC card is mounted by detecting the level relationship, the level relationship is detected again, and the presence or absence of the PC card is determined for each detection.

In addition, a card slot mechanism has been proposed in which measures against static electricity discharged to a device-side electric circuit through a card such as an IC card have been taken (see, for example, Patent Document 2). The card slot mechanism described in Patent Document 2 is provided with a charge removal member made of a charge removal brush, a charge removal cloth, a leaf spring, and the like, and this charge removal member is brought into contact with or close to the card inserted from the insertion slot. Static electricity has been removed.
JP 2003-248996 A JP-A-10-320509

  As described above, static electricity discharged to the card side when the user inserts or removes the card causes malfunction on the card side (in a device such as a PC or TV including the card). However, the conventional countermeasures against static electricity are weak and insufficient in GND, and various malfunctions occur on the connection side, such as stopping during reproduction.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a card slot device capable of strengthening countermeasures against static electricity using an existing mechanical switch.

  The present invention is constituted by the following technical means in order to solve the above-described problems.

  A first technical means is a card slot device for mounting a card-type electronic device having an insulating surface and a conductive surface on its surface, a connector for connecting to the connection terminal on the electronic device side, and one end Is grounded, and the other end is connected to a part of the connection terminal of the electronic device via the connector when the electronic device is connected to the connector, and the electronic device and the connector. A connection determining means for determining whether or not there is an electrical connection, a discharge lever for conducting an operation of discharging the electronic device having a conduction portion, and inserting the discharge lever with the discharge lever inserted And a mechanical switch that switches to the ground side by inserting the discharge lever, and the mechanical switch is switched to the ground side. Insertion determination means for determining whether or not the discharge lever is inserted depending on whether or not, a second grounding means for grounding the discharge lever via the mechanical switch by inserting the discharge lever, Conductive means for electrically connecting the electronic device and the discharge lever in a state where the electronic device is mounted, and the electronic device is connected by the conductive means and the second grounding means in a state where the electronic device is mounted. It is characterized by being grounded.

  According to a second technical means, in the first technical means, the conduction means includes a conduction surface on the connector side of the electronic device and a conduction portion of the discharge lever in a state where the electronic device is inserted. This is a means for conducting.

  According to a third technical means, in the first technical means, the conduction means conducts electricity by a conduction surface on a side surface of the electronic device and a conduction portion of the discharge lever in a state where the electronic device is inserted. It is characterized by being a means.

  According to a fourth technical means, in any one of the first to third technical means, an attachment / detachment determination means for determining attachment / detachment of the electronic device based on a determination result by the connection determination means and a determination result by the insertion determination means. Is further provided.

  According to the present invention, in a card slot device, it is possible to strengthen countermeasures against static electricity using an existing mechanical switch.

  FIG. 1 is an external view showing an example of a PC card. 1 is a PC card, 2 is a connection part, 3a is an insulation part on the terminal side, 3b is an insulation part on the insertion side, 4a is a conduction part on the terminal side, 4b is The conductive portion on the upper surface side and 4c are conductive portions on the side surface side.

  The card slot device according to the present invention is a device for mounting a card-type electronic device having an insulating surface and a conductive surface on the surface, like the PC card 1. The card slot device according to the present invention is a card slot device that can be mounted with a card-type recording medium such as an IC card, a memory card, a font card, etc. in addition to a PC card, and that can execute processing such as reading and writing of information and communication. That's fine. As its installation method, it is not only built in a device such as a PC, printer, television receiver, recorder, etc., but may be externally attached, and connected to an electric circuit inside the device via a terminal. It is sufficient that information can be read from or read from and written to the card-type recording medium. As other card type electronic devices, there are various devices such as a LAN card, an IEEE 1394 interface card, a USB interface card, and a card slot device corresponding to each of them can be applied. It may be compatible with the device.

  A PC card 1 illustrated in FIG. 1 includes a connection portion 2 having a connection terminal that is inserted into a card slot device according to the present invention (in this example, a slot device for a PC card) for electrical connection. The PC card 1 has an insulating surface and a conductive surface on its surface. As the insulating surface, in addition to the surface of the connection portion 2, an insulating portion 3a on the connection terminal side and an insulating portion 3b on the insertion side are provided at two locations. In particular, the insulating portion 3b is provided to reduce direct charging from the human body when the user handles the PC card 1. In addition, the conductive surface is provided in order to reduce the external electromagnetic influence on the inside of the PC card 1 and to prevent damage. In this example, the conductive portion 4a on the terminal side, the conductive portion on the upper surface side are provided. The inside of the PC card 1 is covered by 4b and the conductive portion 4c on the side surface side.

  FIG. 2 is a diagram showing one embodiment of the card slot device according to the present invention, and is a diagram showing a configuration example of the card slot device for mounting the PC card of FIG. 2A shows a state before insertion of the PC card, FIG. 2B shows a state after insertion of the PC card, and FIG. 2C shows a state before insertion of the PC card.

  In FIG. 2, 10 is a card slot device, 11a and 11b are side portions of the housing, 11c is a back portion of the housing, 11d is a spring stopper, 11e is a lever pushing transmission plate, 12 is a bottom portion of the housing, and 13 is a card contact. , 14 and 15 are card discharge plates, 14a and 15a are card push-out portions, 15b is a lever push transmission plate contact portion, 16 is a connection terminal, 17 is a base, 18 is a terminal portion of the connection terminal, and 19a to 19d are attachment portions. , 20 is a discharge lever, 21 is an operation part, 22 is a lever body, 22a is a conductive plate contact part (crank part) of the lever body, 23 is a spring, 31 is a lever drive transmission plate, and 32 is an insertion detection part (push switch). , 33 is an insertion detection transmission unit (button), 34 is a movable contact plate, 35 is an insertion determination unit, and 36 is a connection determination unit.

  The card slot device 10 illustrated in FIG. 2 mainly has a housing bottom 12 made of a conductor and a housing upper portion (not shown) attached to a resin-made housing main body made up of the housing side portions 11a and 11b and the housing back portion 11c. Configured. And the discharge lever 20 is attached to the housing | casing side part 11a. As for the discharge lever 20, the operation part 21 which a user performs pushing-in operation is attached to one end of the lever main body 22, and the spring 23 is attached to the other end of the lever main body 22 with a conduction | electrical_connection part. The other end of the spring 22 is stopped by a spring stopper 11d attached to the housing side 11a. Further, the card contact portion 13 is a portion that is fixed in contact with the conductive portion 4a on the terminal side of the PC card 1 when the PC card 1 is connected to the connection terminal 16, and is electrically connected to the conductive portion 4a.

  Further, card discharge plates 14 and 15 for discharging the PC card 1 when the discharge lever 20 is pushed in from the pushed state are disposed as a discharge mechanism for the PC card 1. The card extruding portions 14a and 15a are parts that come into contact with the PC card 1 when the PC card 1 is ejected and are pushed into the PC card 1 when the PC card 1 is inserted. The lever push transmission plate contact portion 15b is a portion that is movable so that the PC card 1 is pushed out by the card push-out portions 14a and 15a via the lever push transmission plate 11e in conjunction with the lever main body 22 when the PC card 1 is ejected. . On the other hand, when the PC card 1 is inserted, the lever pressing transmission plate contact portion 15b is also a part that moves the lever pressing transmission plate 11e to the user side when the card discharge plate 15 moves to the user side. In this discharge mechanism, the PC card 1 can be discharged only after the discharge lever 20 is inserted a little and the discharge lever 20 is pushed in with the discharge lever 20 protruding slightly.

  The connection terminal 16 is a part of the connector, and is soldered to the base 17 at the terminal portion 18 of the connection terminal. Further, the portion corresponding to each connection terminal 16 of the base 17 is electrically connected to the device side in which the card slot device 10 is incorporated. The card slot device 10 is electrically connected and fixed to the device to be incorporated by the attachment portions 19a to 19d.

  The lever body 22 has a crank-shaped conductive plate contact portion 22a. The conductive plate contact portion 22a presses the insertion detection transmission portion (button) 33 via the lever drive transmission plate 31. Further, the insertion detection unit 32 is a push switch that grounds the movable contact plate 34 to GND when the button 33 is pressed, and that the movable contact plate 34 floats when the button 33 is not pressed. In addition, the terminal of the movable contact plate 34 is connected to the insertion determination unit 35. The insertion determination unit 35 detects a non-insertion of the discharge lever 20 by indicating a predetermined voltage value when the button 33 is not pressed. The insertion / non-insertion of the discharge lever 20 is determined by comparison with the voltage value at the time of grounding.

  As described above, the insertion determination unit 35 inserts / uninserts the PC card 1 by grounding / ungrounding the mechanical switch having the push switch 32 and the lever drive transmission plate 31 including the button 33 and the movable contact plate 34. judge. The determination in the insertion determination unit 35 is used to assist the determination in the connection determination unit 36 that determines the electrical connection between the connection terminal 16 and the connection unit 4a of the PC card 1 based on the conduction state. If the determination by the insertion determination unit 35 is not performed, there is a possibility that data is destroyed when the card is suddenly removed by the user during data communication.

  In addition to the configuration as described above, in the card slot device 10, the conductive portion (including the conductive plate contact portion 22 a) of the lever body 22 is electrically connected to the conductive surface of the PC card 1 with the PC card 1 inserted. It is like that. Further, the lever drive transmission plate 31 has a conduction portion, and the lever drive transmission plate 31 is connected to the GND of the push switch 32, and further, the conduction portion of the lever drive transmission plate 31 and the conduction plate contact portion 22a. When the part comes into contact, it becomes conductive.

  With such a configuration, the lever main body 22 is grounded in a state other than the state in which the ejection lever 20 is pushed in, that is, the state before the PC card 1 is taken out as shown in FIG. Therefore, in the state where the PC card 1 shown in FIG. 2B is inserted, the conductive surface of the PC card 1 is grounded via the lever main body 22, so that static electricity can be released. Become. In addition to this, the base 17 is provided with a line that is connected to the connecting portion (conducting portion) 4a of the PC card and grounded to the GND. Can be distributed to the GND.

  The configuration example of the card slot device for a PC card has been mainly described with reference to FIG. 1 and FIG. 2, but a more general description of the card slot device according to the present invention will be given below.

  FIG. 3 is a diagram showing a configuration example of a card slot device according to an embodiment of the present invention, in which C is a card-type electronic device (hereinafter simply referred to as “card”), 40 is a card slot device, 41 Is a shield, 42 is a ground wire, 43 is a discharge lever, 44 is a lever drive transmission plate, 45 is an insertion detection unit (push switch), 45a is an insertion detection transmission unit (button), 45b is a movable contact plate, 46 is a mechanical type A switch conduction line, 47 is an insertion determination unit, 48 is a connection determination unit, 48a is a connection determination line, and 49 is a card detection unit.

  The card slot device 40 according to the present embodiment includes a connector having a plurality of connection terminals B, b, etc. for connection to a plurality of connection terminals A, a, etc. on the card C side. This connector is usually provided with a shield 41 for reducing electromagnetic influence on the device side in which the card slot device 40 is incorporated.

  Further, when the card C is inserted, the connection terminal a is electrically connected to the connection terminal b whose one end is grounded to GND, and a part of the current due to the discharge of the charged static electricity flows to the card GND. . Further, the connection terminal A is electrically connected to the connection terminal B when the card C is inserted. The presence / absence of this electrical connection is determined by the connection determining unit 48 (other signal processing via other connection terminals). This is usually determined along with the part to be performed).

  The card slot device 40 has a discharge lever 43 for performing an operation of discharging the card C. When the discharge lever 43 is pushed in further, the card slot device 40 pushes out the discharge lever 43. A discharge mechanism for discharging the card C by being pushed in in the pushed state is provided. The ejection lever 43 can eject the card C by being inserted in the same direction as the insertion direction of the card C. As described above, the card slot device 40 includes a discharge mechanism that discharges the card C by inserting (pushing) the discharge lever 43 in a state where the discharge lever 43 is inserted.

  Further, the card slot device 40 has a mechanical switch in which the movable contact plate 45b is switched to the ground (solid GND) side by the insertion of the discharge lever 43, and whether the mechanical switch is switched to the ground (solid GND) side. And an insertion determination unit 47 that determines whether or not the discharge lever 43 is inserted. The mechanical switch includes a push switch 45 including a button 45a and a movable contact plate 45b, and a lever drive transmission plate 44.

  Then, the insertion determination unit 47 determines insertion / non-insertion of the card C by grounding / non-grounding of the mechanical switch (grounding / non-grounding of the movable contact plate 45b). Accordingly, in this insertion detection means, the insertion lever 43 is in the inserted state, and the insertion determination unit 47 determines that there is a card (however, there is a case where the card C is not actually inserted). When the ejection lever 43 is inserted, it is turned off, and the insertion determination unit 47 determines that there is no card.

  The determination result by the insertion determination unit 47 is transmitted to the card detection unit 49, and the card detection unit 49 determines whether the card C is attached or detached together with the determination result by the connection determination unit 48.

  By inserting the discharge lever 43, the discharge lever 43 can be grounded to the above-described solid GND via the mechanical switch (via the lever drive transmission plate 44 and the mechanical switch conduction line 46). ing. Here, in the mechanical switch, the lever drive transmission plate 44 is electrically connected to the solid GND by the mechanical switch conductive line 46. Further, the discharge lever 43 has a conduction part, and with the discharge lever 43 inserted, the conduction part of the discharge lever 43 is electrically connected to the conduction part of the lever drive transmission plate 44 and grounded to the solid GND.

  Further, the card slot device 40 has a structure in which the card C is connected to the discharge lever 43 through a part of the shield 41 or the like at any of the conductive portions on the card C, and the above-described structure. By the grounding to the solid GND, the card C is grounded via the discharge lever 43 and the mechanical switch. By this grounding, it becomes possible to flow a current due to discharge not only to the card GND side but also to the solid GND. As exemplified here, the present invention includes means for conducting the card C and the discharge lever 43 in a state where the card C is mounted.

  FIG. 3 shows an example in which electrical connection is established between the conductive surface on the connector side of the card C and the leading end of the ejection lever 43 in the insertion direction as a part of this means. In this example, point c on the card C, d and e on the shield 41, f and g on the discharge lever 43, h on the lever drive transmission plate 44, mechanical switch conduction line 46, and contact i in this order. Discharge is possible.

  In the prior art including the conventional example described with reference to FIGS. 5 and 6, since the mechanical switch portion of the card detection line is floating with respect to the solid GND, the entire current flows due to the discharge to the card GND. As described above, conventionally, a discharge pulse is applied to the card input / output line between the discharge unit and the card GND, and the IC on the set side malfunctions. However, by applying the present invention, it is possible to add another path to GND and reduce the amount of current flowing to the card GND. By letting the current due to the discharge to the GND other than the card GND, the amount of current to the card GND is reduced, the influence on the signal line is suppressed, and the malfunction due to the discharge is improved. In the embodiment shown in FIG. 3, by conducting in the order of the card C, the discharge lever 43, the mechanical switch unit, and the solid GND, the amount of current to the card GND is reduced, and an effect of improving malfunction caused by discharge is obtained. Yes.

  FIG. 4 is a diagram showing a configuration example of a card slot device according to another embodiment of the present invention, in which C is a card, 50 is a card slot device, 51 is a shield, 52 is a ground wire, and 53 is ejected. Lever, 54 is a lever drive transmission plate, 55 is an insertion detection unit (push switch), 55a is an insertion detection transmission unit (button), 55b is a movable contact plate, 56 is a mechanical switch conduction line, 57 is an insertion determination unit, 58 Is a connection determination unit, 58a is a connection determination line, and 59 is a card detection unit.

  In the embodiment described with reference to FIG. 4, in the embodiment described with reference to FIG. 3, another side route to GND is provided on the side GND side, and description of overlapping portions is omitted. The conduction means in the present embodiment conducts electricity by the conduction surface on the side surface of the card C and the conduction portion of the ejection lever 53 in a state where the card C is inserted.

  In FIG. 4, as a part of this means, the conductive surface on the side surface of the card C and the conductive portion of the discharge lever 53 result in correspondence with the point k on the card C and the point k on the discharge lever 53. The discharge is possible in the order of the point l, the point g on the discharge lever 53, h of the lever drive transmission plate 54, the mechanical switch conduction line 56, and the contact i. By adding this path, the path from the conventional side GND as shown in FIG. 6 to the solid GND (different from the solid GND of the mechanical switch), the point b of the shield 51, and the ground line 52 are used. The route to the card GND can be strengthened.

  In the embodiment shown in FIG. 4, the side GND is strengthened by conducting in the order of the side GND of the card C, the ejection lever 53, the mechanical switch unit, and the solid GND, and the amount of current from the side GND is increased. As a result, the amount of current to the card GND (the amount of current in the signal line) is decreased, and an effect of improving malfunction caused by discharge is obtained. In other words, in the present embodiment, the conventionally proposed side portion GND is used to conduct between the side portion GND and the solid GND to enhance the strength. As described above, by strengthening the side GND in the two paths of the current due to the discharge, the amount of current flowing through the signal line is reduced, and the malfunction due to the discharge is improved.

  As described above, in the present invention, using the movable part of the mechanical detection switch, the electric charge charged in the card is conducted to GND and released. In order to prevent a large current from flowing to the inside of the card and the set side, the GND of the card is strengthened. Since the current flows in the direction of lower impedance, the electrostatic countermeasure effect of the card unit can be obtained by strengthening GND. That is, according to the present invention, in the card slot device, it is possible to strengthen countermeasures against static electricity using an existing mechanical switch. In the present invention, as described above, countermeasures against static electricity are strengthened by providing a plurality of paths for releasing charges using the card slot mechanism and the interface mechanism. In addition, in this invention, it cannot be mentioned that GND may be strengthened further using embodiment described in FIG.3 and FIG.4 together.

It is an external view which shows an example of a PC card. FIG. 2 is a diagram showing one embodiment of a card slot device according to the present invention, and is a diagram showing a configuration example of a card slot device for mounting the PC card of FIG. 1. It is a figure which shows one structural example of the card slot apparatus which concerns on one Embodiment of this invention. It is a figure which shows one structural example of the card slot apparatus which concerns on other embodiment of this invention. It is a figure which shows the example of 1 structure of the card slot apparatus which gave the countermeasure against discharge by a prior art. It is a figure which shows the other structural example of the card slot apparatus which gave the countermeasure against discharge by a prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... PC card, 2 ... Connection part, 3a ... Insulation part on the terminal side, 3b ... Insulation part on the insertion side, 4a ... Conduction part on the terminal side, 4b ... Conduction part on the upper surface side, 4c ... Conduction part on the side surface, DESCRIPTION OF SYMBOLS 10, 40, 50 ... Card slot apparatus, 11a, 11b ... Case side part, 11c ... Case back part, 11d ... Spring stopper part, 11e ... Lever pushing transmission board, 12 ... Case bottom part, 13 ... Card contact part, DESCRIPTION OF SYMBOLS 14,15 ... Card discharge | emission board, 14a, 15a ... Card pushing part, 15b ... Lever pushing transmission board contact part, 16 ... Connection terminal, 17 ... Base, 18 ... Terminal part of a connection terminal, 19a-19d ... Attaching part, 20 DESCRIPTION OF SYMBOLS ... Discharge lever, 21 ... Operation part, 22 ... Lever main body, 22a ... Conductor plate contact part (crank part) of lever main body, 23 ... Spring, 31 ... Lever drive transmission plate, 32 ... Insertion detection part (push switch), 33 ... Insertion detection transmission part (button , 34 ... movable contact plate, 35 ... insertion determination section, 36 ... connection determination section, 41, 51 ... shield, 42, 52 ... ground wire, 43, 53 ... discharge lever, 44, 54 ... lever drive transmission plate, 45, 55 ... Insertion detection unit (push switch), 45a, 55a ... Insertion detection transmission unit (button), 45b, 55b ... Movable contact plate, 46, 56 ... Mechanical switch conduction line, 47, 57 ... Insertion determination unit, 48, 58 ... connection determination unit, 48a, 58a ... connection determination line, 49, 59 ... card detection unit, C ... card-type electronic device (card).

Claims (4)

A card slot device for mounting a card-type electronic device having an insulating surface and a conductive surface on its surface,
A connector for connecting to the connection terminal on the electronic device side;
A first grounding means having one end grounded and the other end connected to a part of a connection terminal of the electronic device via the connector when the electronic device is connected to the connector;
Connection determination means for determining presence or absence of electrical connection between the electronic device and the connector;
A discharge lever for conducting an operation of discharging the electronic device having a conduction part, and a discharge unit having a mechanism for discharging the electronic device by inserting the discharge lever in a state where the discharge lever is inserted;
An insertion determining means for determining whether or not the discharge lever is inserted depending on whether or not the mechanical switch is switched to the ground side. ,
A second grounding means for grounding the discharge lever via the mechanical switch by inserting the discharge lever;
Conducting means for conducting the electronic device and the discharge lever in a state where the electronic device is mounted;
And a card slot device characterized in that the electronic device is grounded by the conduction means and the second grounding means in a state where the electronic device is mounted.   2. The device according to claim 1, wherein the conduction unit is a unit that conducts electricity by a conduction surface on the connector side of the electronic device and a conduction part of the discharge lever in a state where the electronic device is inserted. The card slot device described.   The said conduction | electrical_connection means is a means to conduct by the conduction | electrical_connection surface in the side surface of the said electronic device, and the conduction | electrical_connection part of the said discharge lever in the state in which the said electronic device was inserted. Card slot device.   The attachment / detachment determination means for determining attachment / detachment of the electronic device based on the determination result by the connection determination means and the determination result by the insertion determination means is further provided. A card slot device according to 1.

Images