JP2020008974A - Card tray - Google Patents

Abstract

To provide a mechanism capable of discharging a card tray housed in electronic equipment without using an operation tool like a pin.SOLUTION: A card tray 30 moves forward (in a -X direction) as to a forward/backward direction (X direction) to be inserted into and housed in electronic equipment 10 comprising a contact 14. The card tray 30 comprises a tray body 40, a movable part 50, and a discharging control mechanism 60 including terminals 62, 64, a lock part 728, and a spring part 68. The movable part 50 can move relatively to the tray body 40 in the forward/backward direction. The lock part 728 maintains the movable part 50 temporarily at an initial position (a position in Fig. 6). The terminal 62 comes into contact with the contact 14 with the card tray 30 housed in the electronic equipment 10. The spring part 68 extends in response to a current flowing through the contact 14 and terminal 62 to move the movable part 50 backward (+X direction) from the initial position.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a card tray for mounting a card such as a SIM (Subscriber Identity Module) card in an electronic device.

  Such a card tray is disclosed, for example, in Patent Document 1.

  Referring to FIGS. 19 to 21, an electronic device 90 of Patent Document 1 includes a connector device including a connector main part (connector) 94 and a tray 96. The connector 94 is attached inside the electronic device 90. The tray 96 is a card tray, and can be inserted into the connector 94 in a state where a card (not shown) such as a SIM card is mounted. The tray 96 inserted inside the connector 94 can be ejected using the pins 98. Specifically, the connector 94 has a lock mechanism 942 for locking the tray 96 and keeping it inside the connector 94, a lock release mechanism 944 for releasing the lock by the lock mechanism 942, and discharging the unlocked tray 96. Various members such as an eject mechanism 946 are provided. The tray 96 includes a door member 962 in which a pin insertion hole 964 is formed. When the pin 98 is inserted from the pin insertion hole 964 and the lock release mechanism 944 is operated, the lock of the tray 96 is released, and the tray 96 is ejected.

JP 2014-235994 A

  According to the related art, an operation tool such as a pin is required to eject a card tray accommodated in an electronic device. Therefore, when the pins are lost, it becomes difficult to discharge the card tray.

  Therefore, an object of the present invention is to provide a mechanism capable of discharging a card tray accommodated in an electronic device without using an operation tool such as a pin.

The present invention provides, as a first card tray,
By moving forward in the front-rear direction, it is a card tray that is inserted and housed inside an electronic device having contacts,
The card tray includes a tray body, a movable unit, and a discharge control mechanism,
The tray body has a mounting portion for mounting a card,
The movable section is relatively movable with respect to the tray body in the front-rear direction,
The discharge control mechanism includes a terminal,
The terminal is in contact with the contact point in a housed state in which the card tray is housed in the electronic device,
The ejection control mechanism temporarily maintains the movable portion at an initial position, and in accordance with a current flowing through the contacts and the terminal, moves a card tray that moves the movable portion backward from the initial position. provide.

Further, the present invention is the first card tray as the second card tray,
The ejection control mechanism provides a card tray attached to the tray body.

Further, the present invention is the first or second card tray as the third card tray,
The movable portion is relatively movable with respect to the tray body between a front limit position and a rear limit position in the front-rear direction,
The movable portion cannot move forward beyond the front limit position, and cannot move rearward beyond the rear limit position,
The initial position may provide a card tray at the same position as the front limit position in the front-rear direction or between the front limit position and the rear limit position.

The present invention also provides a third card tray as the fourth card tray,
The movable part has a received part,
The internal structure including the tray body and the discharge control mechanism has a receiving portion,
When the movable portion moves rearward relative to the tray body, when the movable portion reaches the rear limit position, a card tray is provided in which the received portion is received by the receiving portion.

Further, the present invention provides any one of the first to fourth card trays as a fifth card tray,
The discharge control mechanism includes a shape memory component,
The shape memory component is deformed from an initial shape to a predetermined shape in accordance with the current flowing through the contact and the terminal,
The ejection control mechanism provides a card tray that moves the movable unit backward from the initial position by deforming the shape memory component into the predetermined shape.

The present invention also provides a fifth card tray as the sixth card tray,
The shape memory component is made of a shape memory alloy,
The shape memory component is deformed and restored from the initial shape to the predetermined shape according to the current flowing through the shape memory component via the contact point and the terminal,
The ejection control mechanism provides a card tray that moves the movable section backward from the initial position by restoring the shape memory component to the predetermined shape.

Further, the present invention provides a sixth card tray as a seventh card tray,
The discharge control mechanism includes a lock unit and a spring unit,
At least one of the lock portion and the spring portion is the shape memory component,
The movable part has a locked part,
The lock portion locks the locked portion when the shape memory component is in the initial shape, temporarily maintains the movable portion at the initial position,
The spring portion applies a discharge force to the movable portion when at least the shape memory component is restored to the predetermined shape,
The locked portion provides a card tray that is unlocked when the shape memory component is restored to the predetermined shape.

The present invention also provides a seventh card tray as the eighth card tray,
The spring portion is the shape memory component,
The spring portion, when taking the initial shape, applies an initial force rearward to the movable portion,
The initial force is weaker than the discharge force,
The lock portion, when the spring portion has the initial shape, temporarily maintains the movable portion at the initial position against the initial force,
The locked portion provides a card tray unlocked by the ejection force.

Also, the present invention is a seventh or eighth card tray as a ninth card tray,
The spring portion provides a card tray that is a helical spring.

Also, the present invention provides any of the seventh to ninth card trays as a tenth card tray,
The contact of the electronic device includes a first contact and a second contact,
The movable part is made of metal,
The discharge control mechanism includes a metal shell,
The terminal of the discharge control mechanism includes a first terminal and a second terminal,
In the housed state, the first terminal and the second terminal are in contact with the first contact and the second contact, respectively.
The spring portion has a connection end and a discharge end,
The connection end of the spring portion is connected to the first terminal,
The discharge end of the spring portion is in contact with the movable portion,
The movable portion is in contact with the shell,
The shell provides a card tray in contact with the second terminal.

Further, the present invention provides any one of the first to tenth card trays as an eleventh card tray,
The electronic device has an opening into which the card tray is inserted,
The movable section has a lid,
When the movable portion is at the initial position in the accommodated state, the lid provides a card tray closing the opening.

  According to the present invention, it is possible to move the movable unit backward by merely passing a current to the emission control mechanism by operating the electronic device or the like, whereby the movable unit can be at least partially moved away from the electronic device. Can be exhausted. For example, by pulling the movable part discharged from the electronic device backward, the entire card tray can be removed from the electronic device. That is, according to the present invention, it is possible to provide a discharge control mechanism capable of discharging a card tray inserted into a connector without using an operation tool such as a pin.

1 is a perspective view showing an electronic device according to an embodiment of the present invention. The card tray is housed inside the electronic device. The movable part of the card tray is at the initial position. FIG. 2 is a perspective view illustrating a card tray and a connector of the electronic device of FIG. 1. Cards are mounted on the card tray. The card tray is inserted into the connector. The outline of a part of the predetermined surface of the electronic device is drawn by a broken line. FIG. 3 is a perspective view illustrating a card tray and a connector of FIG. 2. The card tray is away from the connector. FIG. 4 is a perspective view showing the card tray of FIG. 3. There are no cards in the card tray. FIG. 5 is an exploded perspective view showing the card tray of FIG. 4. FIG. 5 is a top view showing the card tray of FIG. 4. The outline of a hidden part such as a spring portion and the outline of a contact point of an electronic device are drawn by broken lines. It is sectional drawing which shows the card tray of FIG. 6 along a VII-VII line. A part of the card tray (portion surrounded by a broken line) is drawn in an enlarged manner. FIG. 7 is a sectional view showing the card tray of FIG. 6 along the line VIII-VIII. A part of the card tray (portion surrounded by a broken line) is drawn in an enlarged manner. It is sectional drawing which shows the card tray of FIG. 6 along IX-IX line. FIG. 5 is a bottom view showing the card tray of FIG. 4. FIG. 5 is a side view showing the card tray of FIG. 4. It is sectional drawing which shows the card tray of FIG. 11 along the XII-XII line. FIG. 5 is a perspective view illustrating the card tray of FIG. 4. The movable part of the card tray is at the rear limit position. It is a top view which shows the card tray of FIG. The outline of a hidden part such as a spring portion and the outline of a contact point of an electronic device are drawn by broken lines. It is sectional drawing which shows the card tray of FIG. The cross section corresponds to the cross section in FIG. A part of the card tray (portion surrounded by a broken line) is drawn in an enlarged manner. It is sectional drawing which shows the card tray of FIG. The cross section corresponds to the cross section in FIG. FIG. 3 is a perspective view illustrating a card tray and a connector of FIG. 2. The movable part of the card tray is at the rear limit position. The outline of a part of the predetermined surface of the electronic device and the outline of the opening are drawn by broken lines. FIG. 2 is a perspective view illustrating the electronic device of FIG. 1. The movable part of the card tray is at the rear limit position. FIG. 11 is a perspective view showing an electronic device of Patent Document 1. In the electronic device, the tray is inserted inside the connector. FIG. 20 is a top view illustrating the inside of the electronic apparatus in FIG. 19. A pin is inserted from the pin insertion hole of the tray. FIG. 20 is a perspective view illustrating the electronic device of FIG. 19. The tray is partially ejected from the connector.

  Referring to FIGS. 1 and 2, an electronic device 10 according to an embodiment of the present invention can accommodate a card 80. The card 80 may be a SIM (Subscriber Identity Module) card or a card other than a SIM card. In the present embodiment, a connector 20 is mounted inside the electronic device 10. The connector 20 is a device for electrically connecting the card 80 to an electronic circuit (not shown) of the electronic device 10 and can be fitted to the card tray 30 on which the card 80 is mounted.

  Referring to FIGS. 2 and 3, the connector 20 of the present embodiment includes a housing 22 made of an insulator and a shield member 24 made of a conductor. The connector 20 has a housing 28 defined by a housing 22 and a shield member 24. The accommodation section 28 can partially accommodate the card tray 30 fitted with the connector 20. When the card tray 30 is accommodated in the accommodating portion 28, the electrodes (not shown) of the card 80 mounted on the card tray 30 come into contact with the contacts (not shown) of the connector 20. , Is electrically connected to an electronic circuit (not shown) of the electronic device 10.

  The connector 20 of the present embodiment is formed from the housing 22 and the shield member 24 so as to have a flat plate shape as a whole. However, the structure of the connector 20 is not particularly limited as long as the card 80 mounted on the card tray 30 can be electrically connected to an electronic circuit (not shown) of the electronic device 10. The connector 20 may be detachable from the electronic device 10 or may be formed integrally with the electronic device 10. That is, the connector 20 may be a device separate from the electronic device 10 or may be a part of the electronic device 10.

  Hereinafter, a basic structure of the card tray 30 according to the present embodiment will be described.

  Referring to FIGS. 3 and 4, the card tray 30 includes a tray body 40 made of an insulator and a movable part 50 made of a conductor. The tray body 40 is located forward (−X side) of the movable section 50 in the front-rear direction (X direction).

  The tray body 40 has a mounting section 46 on which a card 80 is mounted. Two cards 80 can be mounted side by side in the X direction on the mounting section 46 of the present embodiment. The movable section 50 has a lid 52 that covers the entire card tray 30 from behind. The cover 52 has a rear surface (exposed surface) 522. The exposed surface 522 is a flat surface extending in parallel with the vertical surface (YZ plane). However, the present invention is not limited to this, and the structures of the tray main body 40 and the movable portion 50 can be variously modified as necessary.

  Referring to FIGS. 10 and 11, the front end (the end on the −X side) of the mounting portion 46 is located at the front end 40 </ b> F of the tray main body 40. The front end 40F of the tray main body 40 is the front end of the entire card tray 30. The exposed surface 522 of the lid portion 52 is located at the rear end 50R of the movable portion 50. The rear end 50R of the movable portion 50 is the rear end (the end on the + X side) of the entire card tray 30.

  Referring to FIGS. 1 and 2, the electronic device 10 has a predetermined surface 12 that is parallel to the YZ plane. An opening 18 is formed in the predetermined surface 12. The card tray 30 is moved forward (−X direction) in the X direction, passes through the opening 18, and is inserted into and accommodated in the accommodating portion 28 of the connector 20 (that is, inside the electronic device 10). That is, the electronic device 10 has the opening 18 into which the card tray 30 is inserted.

  According to the present embodiment, when the tray main body 40 is inserted into the electronic device 10 through the opening 18 and the lid 52 is pressed forward, the entire card tray 30 including the movable portion 50 is placed inside the electronic device 10. When housed, the lid 52 almost completely covers the opening 18. Specifically, the exposed surface 522 of the lid 52 is flush with the predetermined surface 12 of the electronic device 10 and closes the opening 18 with almost no gap. However, the present invention is not limited to this. For example, in a state where the entire card tray 30 is housed inside the electronic device 10 (a state shown in FIGS. 1 and 2), a slight gap may remain in the opening 18. In this state, the exposed surface 522 may be located slightly ahead of the predetermined surface 12 or may be located slightly behind (+ X side) the predetermined surface 12.

  The card tray 30 cannot be easily pulled out of the electronic device 10 in the state shown in FIGS. That is, it is difficult to eject the card tray 30 from the electronic device 10. However, referring to FIG. 3 in conjunction with FIGS. 1 and 2, the card tray 30 includes a discharge control mechanism 60 for discharging the movable unit 50 from the electronic device 10 as described in detail later. That is, the card tray 30 accommodated in the electronic device 10 can be partially discharged by the discharge control mechanism 60.

  Hereinafter, after the detailed structure of the card tray 30 according to the present embodiment is described, the discharge control mechanism 60 formed from various members and parts of the card tray 30 will be described in detail with reference to modified examples.

  Referring to FIG. 5, in addition to the tray body 40 and the movable portion 50, the card tray 30 includes a first terminal (terminal) 62 made of a conductor, a second terminal (terminal) 64 made of a conductor, and a conductor And two shells (shape memory components) 68 made of the same and a shell 70 made of a conductor.

  The tray body 40 has a mounting part 42 in addition to the mounting part 46. The mounting part 42 is located behind the mounting part 46 and has a flat plate shape parallel to a horizontal plane (XY plane). Referring to FIGS. 5 and 9, the mounting portion 42 has a concave portion 422 and two receiving portions 424. The recess 422 is a recess that is recessed downward (−Z direction) in the vertical direction (Z direction). The recess 422 is open rearward. Each of the receiving portions 424 is a cylindrical hole having a bottom. Each of the receiving portions 424 is open at the rear end of the mounting portion 42, and extends inside the mounting portion 42 along the X direction. The recess 422 is located between the two receiving portions 424 in the lateral direction (Y direction).

  Referring to FIG. 5, the first terminal 62 is a single bent metal plate. The first terminal 62 has a contact portion 622, a connection portion 624, and a connection portion 628. Referring to FIGS. 5 and 6, most of the first terminal 62 is embedded in the tray main body 40 by insert molding. Referring to FIG. 4, the contact portion 622 extends along the X direction, and is partially exposed on the −Y side surface of the mounting portion 46. Referring to FIGS. 5, 6, and 8, the connecting portion 628 extends in the Y direction and is partially exposed inside the receiving portion 424. The connection part 624 connects the contact part 622 and the connection part 628 to each other.

  Referring to FIG. 5, the second terminal 64 is a single bent metal plate. The second terminal 64 has a contact portion 642 and a connection portion 648. Referring to FIGS. 5 and 6, most of the second terminal 64 is embedded in the tray main body 40 by insert molding. Referring to FIG. 3, the contact portion 642 extends along the X direction, and is partially exposed on the + Y side surface of the mounting portion 46. 5 and 9, the connection portion 648 extends along the Y direction and is partially exposed on the upper surface (the + Z side surface) of the mounting portion 42.

  Referring to FIG. 5, the two spring portions 68 have the same shape as each other. More specifically, each of the spring portions 68 is a metal helical spring, and has a connection end 682 and a discharge end 684. Referring to FIG. 12, the two spring portions 68 are inserted and received in the two receiving portions 424 of the tray main body 40, respectively. Each of the spring portions 68 extends inside the corresponding receiving portion 424 along the X direction. Each connection end 682 of the spring portion 68 is connected to the connection portion 628 of the first terminal 62.

  As shown in FIG. 5, the movable section 50 has an overhang 54, two force receiving sections 56, and a protrusion 58 in addition to the lid 52. The overhang portion 54 is located on the opposite side of the exposed surface 522 in the X direction, and projects forward from the lid portion 52. Each of the force receiving portions 56 has a cylindrical shape, and extends forward from the overhang portion 54. The protruding portion 58 has a flat plate shape parallel to the XY plane, and protrudes forward from the overhang portion 54. The protruding portion 58 is formed with a hole 58H penetrating the protruding portion 58 in the Z direction. 5 and 12, the two force receiving portions 56 correspond to the two receiving portions 424 of the tray body 40, respectively. The protruding portion 58 corresponds to the concave portion 422 of the tray main body 40 and is located between the two force receiving portions 56 in the Y direction.

  Referring to FIG. 5, the movable section 50 has a received section 582 and two locked sections 588. The received portion 582 is an inner wall surface located at the front end of the hole 58 </ b> H of the protrusion 58. The locked portions 588 are dents formed on both side surfaces of the protruding portion 58 in the Y direction. Each of the locked portions 588 is depressed inward in the Y direction (that is, toward the hole 58H).

  Referring to FIG. 12, the movable portion 50 is partially inserted into the inside of the tray main body 40 from behind. Specifically, each of the force receiving portions 56 of the movable portion 50 is inserted and received in the corresponding receiving portion 424 of the tray main body 40. In addition, the protruding portion 58 of the movable portion 50 is inserted and received in the concave portion 422 of the tray main body 40.

  Referring to FIG. 5, the shell 70 is a single bent metal plate. 5, 10 and 12, the shell 70 includes an upper plate 72, two side plates 74, a lower plate 76, two rear plates 78, a receiving portion 722, and two It has a lock portion 728 and two engagement pieces 748. Referring to FIGS. 4, 5, and 10, the shell 70 is attached to the attachment portion 42 of the tray body 40, and the upper plate 72, the side plate 74, and the lower plate 76 are substantially the same as the attachment portion 42 in the YZ plane. Is covered.

  Referring to FIGS. 5 and 12, two engagement pieces 748 of the shell 70 correspond to the two side plates 74, respectively. Each of the engagement pieces 748 is formed from a part of the corresponding side plate 74, and extends rearward from the vicinity of the front end of the corresponding side plate 74 while being inclined inward in the Y direction. Referring to FIG. 12, each of the engagement pieces 748 is received in a recess near the rear end of the mounting portion 42 and prevents the shell 70 from moving forward relative to the tray body 40. In addition, each of the rear plates 78 partially covers the rear end of the mounting portion 42 to prevent the shell 70 from moving backward relative to the tray body 40. That is, the shell 70 is fixed so as not to move relatively to the tray main body 40.

  Referring to FIG. 5, each of the receiving portion 722 and the lock portion 728 of the shell 70 is formed from a part of the upper plate 72. The receiving portion 722 extends forward from the vicinity of the rear end of the upper plate 72 while being inclined downward. Each of the lock portions 728 extends downward from near the rear end of the upper plate 72, and then extends forward while projecting inward in the Y direction. Each of the lock portions 728 thus formed is elastically deformable in the XY plane. The two lock portions 728 correspond to the two locked portions 588 of the movable portion 50, respectively. The receiving portion 722 corresponds to the hole 58H of the movable portion 50, and is located between the two lock portions 728 in the Y direction.

  Referring to FIG. 7, the front end of the receiving portion 722 of the shell 70 is received in the hole 58 </ b> H of the movable portion 50. The receiving portion 582 of the movable portion 50 faces the front end of the receiving portion 722 at a distance in the X direction. The relative position of the movable part 50 with respect to the tray body 40 at this time is called an “initial position”. The movable part 50 drawn in each of FIGS. 1 to 4 and FIGS. 6 to 12 is at the initial position. Referring to FIGS. 1 and 2, in a state where the card tray 30 is housed in the electronic device 10, when the movable unit 50 is at the initial position, the entire card tray 30 including the movable unit 50 is located inside the electronic device 10. The electronic device 10 is housed, and the lid 52 of the movable unit 50 covers the opening 18 of the electronic device 10.

  Referring to FIGS. 6, 8, 9 and 12, the shape of the spring portion 68 when the movable portion 50 is at the initial position is referred to as "initial shape". 8 and 12, in each of the spring portions 68 having the initial shape, the discharge end 684 is in contact with the movable portion 50. Specifically, the discharge ends 684 of the two spring portions 68 are in contact with the front ends of the two force receiving portions 56, respectively. Each of the force receiving portions 56 may apply a slightly forward force to the discharge end 684 of the corresponding initial shape spring portion 68, or may simply contact the discharge end 684 without applying a forward force. Is also good. In other words, when each of the spring portions 68 is in the initial shape, the discharge end 684 exerts a slight rearward force (hereinafter, referred to as “initial force”) on the corresponding force receiving portion 56. It may be applied, or no initial force may be applied.

  Referring to FIG. 12, when the movable portion 50 is in the initial position, the two lock portions 728 of the shell 70 are elastically deformed so as to be separated from each other in the Y direction, so that the projecting portion 58 is moved in the Y direction. It is sandwiched. Specifically, each of the lock portions 728 applies a force (hereinafter, referred to as “maintenance force”) toward the corresponding locked portion 588 toward the front and in the Y direction. The movable portion 50 receives the maintaining force from the two lock portions 728, and is thereby maintained at the initial position even if it receives the initial force from the two spring portions 68.

  Referring to FIGS. 7 and 8, when the movable portion 50 at the initial position is pushed forward, the movable portion 50 moves forward with respect to the tray main body 40 while compressing the spring portion 68. . However, when the movable part 50 moves slightly forward, a part of the movable part 50 abuts on the tray main body 40, whereby the movable part 50 stops. The relative position of the movable unit 50 with respect to the tray body 40 when the movable unit 50 stops is referred to as a “front limit position”. When the movable section 50 is at the front limit position, the rear end 50R of the movable section 50 is closest to the front end 40F of the tray main body 40 in the X direction.

  Referring to FIGS. 7 and 15, when the movable portion 50 at the initial position is pulled backward, the movable portion 50 moves relatively backward with respect to the tray main body 40. However, when the movable portion 50 moves backward, the received portion 582 of the movable portion 50 abuts against the receiving portion 722 of the shell 70, and thereby the movable portion 50 stops. The relative position of the movable unit 50 with respect to the tray body 40 when the movable unit 50 stops is referred to as a “back limit position”. The movable part 50 drawn in each of FIGS. 13 to 18 is at the rear limit position. When the movable section 50 is at the rear limit position, the rear end 50R of the movable section 50 is farthest from the front end 40F of the tray main body 40 in the X direction.

  As described above, the movable section 50 is relatively movable with respect to the tray body 40 in the X direction. In particular, the movable section 50 of the present embodiment is relatively movable with respect to the tray body 40 between the front limit position and the rear limit position in the X direction. The movable unit 50 cannot move forward beyond the front limit position, and cannot move backward beyond the rear limit position. More specifically, when the movable section 50 reaches the rear limit position when the movable section 50 moves relatively rearward with respect to the tray main body 40, the received section 582 is received by the receiving section 722. The initial position is between the front limit position and the rear limit position in the X direction. However, the present invention is not limited to this. For example, the initial position may be at the same position as the front limit position.

  Referring to FIG. 5, the above-described various members and parts (hereinafter, simply referred to as “members”) of the card tray 30 form a discharge control mechanism 60. The discharge control mechanism 60 according to the present embodiment includes a metal shell 70, two metal terminals 62 and 64 including a first terminal 62 and a second terminal 64, two metal lock portions 728, And two metal spring portions (shape memory components) 68. Each of the spring portions 68 of the present embodiment is a shape memory component made of a shape memory alloy, and is restored from an initial shape to a predetermined shape shown in FIGS. 14 and 16 according to the temperature of the spring portion 68. And returns from the predetermined shape to the initial shape.

  Referring to FIG. 6, the electronic device 10 includes two contacts 14 and 16 including a first contact (contact) 14 and a second contact (contact) 16. In the present embodiment, the first contact 14 is connected to a power supply (not shown) of the electronic device 10, and the second contact 16 is grounded. However, the first contact 14 may be grounded, and the second contact 16 may be connected to the power supply of the electronic device 10.

  The terminals 62 and 64 of the ejection control mechanism 60 are in contact with the contacts 14 and 16 of the electronic device 10 when the card tray 30 is stored. Specifically, in the housed state, the contact portion 622 of the first terminal 62 and the contact portion 642 of the second terminal 64 are in contact with the first contact 14 and the second contact 16, respectively.

  Referring to FIGS. 6 and 14, according to the present embodiment, in the present embodiment, various members of the movable section 50 and the discharge control mechanism 60 are all metallic and are good conductors. When the movable unit 50 is at either the initial position or the rear limit position, various members of the movable unit 50 and the discharge control mechanism 60 are electrically connected to each other. Specifically, when the movable portion 50 is at either the initial position or the rear limit position, each connection end 682 of the spring portion 68 is connected to the first terminal 62 and each discharge end of the spring portion 68 684 is in contact with the movable part 50. The movable section 50 is in contact with the shell 70 via the locked section 588 and the lock section 728. Referring to FIG. 9, the upper plate 72 of the shell 70 is connected to the connection portion 648 of the second terminal 64. That is, the shell 70 is in contact with the second terminal 64.

  Referring to FIG. 6, due to the above-described electrical connection, the card tray 30 comes in contact with the second contact 16 from the first terminal 62 in contact with the first contact 14 via the movable part 50 and the shell 70. An electric path to the second terminal 64 is formed. When a current flows from the power supply (not shown) of the electronic device 10 to the first contact 14, the current is grounded from the second contact 16 via an electric path. Each of the spring portions 68 of the present embodiment generates heat by a current flowing through the spring portion 68 via the contact 14 and the terminal 62. Each of the spring portions 68 has an initial shape at normal temperature, while having a predetermined shape which is a shape stored in advance at a high temperature of, for example, 70 ° C. or higher. That is, each of the spring portions 68 restores from the initial shape to a predetermined shape when heated, and returns to the initial shape when the temperature returns to room temperature.

  Referring to FIG. 12, each of the spring portions 68 having the initial shape has a length LI. Referring to FIG. 16, each of the spring portions 68 having a predetermined shape has a length LP. Referring to FIGS. 12 and 16, the length LP is longer than the length LI. Therefore, when each of the spring portions 68 is restored to the predetermined shape, the discharge end 684 applies a rearward discharge force to the corresponding force receiving portion 56 of the movable portion 50. The discharge force is sufficiently large compared to the initial force applied to the corresponding force receiving portion 56 by each of the spring portions 68 having the initial shape. In particular, the discharge force is greater than the force by which the lock unit 728 maintains the movable unit 50 at the initial position. Therefore, the locked portion 588 is unlocked by the discharging force, and the movable portion 50 moves rearward.

  Referring to FIG. 12, according to the present embodiment, when each of the spring portions 68 is in the initial shape, it applies an initial force toward the rear to the movable portion 50. It is in contact with the movable part 50. The initial force is weaker than the discharge force when the spring portion 68 restores to a predetermined shape. The lock portion 728 temporarily maintains the movable portion 50 at the initial position against the weak initial force when the spring portion 68 has the initial shape. The initial force is preferably relatively strong from the viewpoint of ensuring that the spring portion 68 comes into contact with the movable portion 50. On the other hand, from the viewpoint of reliably maintaining the movable portion 50 at the initial position by the lock portion 728, the initial force is preferably relatively weak, and more preferably zero.

  Referring to FIG. 6, according to the present embodiment, each of spring portions 68 is connected to second terminal 64 via movable portion 50, lock portion 728 of shell 70, and upper plate 72 of shell 70. Is electrically connected to However, each of the spring portions 68 may be electrically connected to the second terminal 64 only by a metal member (not shown) such as a metal wire instead of the movable portion 50 and the shell 70. In this case, the movable section 50 may be formed from an insulator such as a resin. Further, each of the lock portions 728 may be a member separate from the shell 70. For example, each of the lock portions 728 may be a member made of an insulator such as a resin.

  According to the present embodiment, each of spring portions 68 is formed by winding a metal wire in a coil shape, and thereby has relatively high electric resistance and low specific heat. That is, each of the spring portions 68 tends to generate heat at a high temperature by the electric current. However, the present invention is not limited to this. For example, each of the spring portions 68 may be a plate-shaped spring instead of a helical spring, as long as a necessary discharge force is generated when the spring portion 68 is restored to a predetermined shape. In this case, each of the spring portions 68 may press the front end of the protruding portion 58 of the movable portion 50 rearward when restoring the predetermined shape. According to this structure, the receiving portion 424 and the force receiving portion 56 may not be provided. Further, the number of the spring portions 68 is not limited to two and may be one or three or more.

  As described above, the shape memory component 68 (spring portion 68) of the present embodiment is deformed from the initial shape to a predetermined shape according to the current flowing through the contact 14 and the terminal 62. In particular, the shape memory component 68 of the present embodiment is made of a shape memory alloy, and deforms and restores from an initial shape to a predetermined shape according to the current flowing through the shape memory component 68 via the contacts 14 and the terminals 62. The ejection control mechanism 60 releases the lock of the movable portion 50 by the lock portion 728 by moving (restores) the shape memory component 68 into a predetermined shape, and moves the movable portion 50 backward from the initial position.

  In particular, the discharge control mechanism 60 according to the present embodiment temporarily maintains the movable portion 50 at the initial position by the maintenance force of the lock portion 728, and also controls the spring in accordance with the current flowing through the contact 14 and the terminal 62. The discharge force is generated in the portion 68 to move the movable portion 50 backward from the initial position. However, the present invention is not limited to this. The discharge control mechanism 60 can temporarily maintain the movable unit 50 at the initial position, and moves the movable unit 50 backward from the initial position according to the current flowing through the contact point 14 and the terminal 62. It may have any structure as long as it can do so.

  Referring to FIGS. 6 and 14, according to the present embodiment, the movable unit 50 can be operated only by passing a current to the discharge control mechanism 60 by operating the electronic device 10 on an operation screen (not shown). Can be moved backward. Referring to FIGS. 17 and 18, the movable unit 50 that has moved rearward is located at the rear limit position and is at least partially discharged from the electronic device 10. Specifically, the lid 52 of the movable unit 50 can be discharged from the opening 18 to the outside of the electronic device 10. For example, the entire card tray 30 can be removed from the electronic device 10 by pulling the lid 52 of the movable unit 50 discharged from the electronic device 10 backward. That is, according to the present embodiment, it is possible to provide a discharge control mechanism 60 (see FIG. 6) capable of discharging the card tray 30 inserted into the connector 20 without using an operation tool such as a pin.

  According to the present embodiment, it is not necessary to provide the connector 20 with various mechanisms (see FIG. 20) such as a lock mechanism, an unlock mechanism, and an eject mechanism. However, in addition to the ejection control mechanism 60 of the card tray 30, the connector 20 may be provided with the above-described mechanism.

  Referring to FIG. 14, according to the present embodiment, in the housed state, even when movable section 50 is at the rear limit position, each of lock sections 728 is in contact with corresponding locked section 588, In addition, each of the spring portions 68 is in contact with the connection portion 628 of the first terminal 62 and the movable portion 50. Therefore, even when the movable part 50 is at the rear limit position, the electric path from the first contact 14 to the second contact 16 is maintained. According to the present embodiment, when the control unit (not shown) of electronic device 10 stops the current flowing through discharge control mechanism 60 at a predetermined timing, spring portion 68 returns from the predetermined shape to the initial shape. . At this time, when the movable section 50 is moved forward, the movable section 50 returns to the initial position. However, the present invention is not limited to this. For example, when the movable part 50 is at the rear limit position, each of the lock parts 728 may be separated from the corresponding locked part 588.

  Referring to FIG. 6, according to the present embodiment, the discharge control mechanism 60 is attached to the tray main body 40. More specifically, the shell 70 including the lock portion 728 is fixed to the tray main body 40, and each of the first terminal 62 and the second terminal 64 is fixed inside the tray main body 40. In addition, each connection end 682 of the spring portion 68 is fixed to the connection portion 628 of the terminal 62. According to this structure, in the housed state, even when the movable section 50 is at the rear limit position, the terminals 62 and 64 surely come into contact with the contacts 14 and 16, respectively, and flow the current to the discharge control mechanism 60. However, the present invention is not limited to this, and a part or all of the discharge control mechanism 60 may be attached to the movable unit 50. For example, the terminals 62 and 64 may be fixed to the movable unit 50. Each discharge end 684 of the spring portion 68 may be fixed to the corresponding force receiving portion 56 of the movable portion 50. Further, each of the spring portions 68 may be a part of the movable portion 50.

  Referring to FIG. 3, according to the present embodiment, the discharge control mechanism 60 such as the shell 70 attached to the tray main body 40 forms an internal structure 32 together with the tray main body 40. Referring to FIG. 5, according to the present embodiment, the receiving portion 722 of the shell 70 is a part of the internal structure 32 (see FIG. 3). In other words, the internal structure 32 including the tray body 40 and the discharge control mechanism 60 has the receiving portion 722.

  In particular, the receiving portion 722 of the present embodiment is a part of the discharge control mechanism 60. However, the receiving portion 722 may be a part of the tray main body 40. For example, the receiving portion 722 may be a protrusion formed in the concave portion 422. The card tray 30 does not need to be provided with the receiving portion 582 and the receiving portion 722, and each of the spring portions 68 does not need to be fixed to the movable portion 50. Referring to FIGS. 17 and 18, in this case, when the movable unit 50 is pulled rearward, the movable unit 50 moves rearward and is removed from the tray main body 40. After removing the movable portion 50, for example, the card tray 30 may be pulled rearward while holding a protrusion (not shown) provided at the mounting portion 42 or the rear end of the shell 70.

  Referring to FIG. 5, lid portion 52 of the present embodiment is a part of movable portion 50. However, the lid part 52 may be a member separate from the movable part 50, or may be attached to the overhang part 54 of the movable part 50 so that it can be easily removed. Referring to FIGS. 17 and 18, in this case, after a knob (not shown) provided on the exposed surface 522 of the lid 52 is pinched and the lid 52 is removed, the movable section 50 is moved to the rear limit position. Alternatively, the card tray 30 may be pulled rearward while holding a part of the movable portion 50.

  The card tray 30 (in particular, the ejection control mechanism 60) of the present embodiment can be variously modified as described below in addition to the already described modified examples.

  Referring to FIG. 12, according to the present embodiment, spring portion 68 is a shape memory component made of a shape memory alloy, while lock portion 728 is made of shell 70 made of a general metal that is not a shape memory alloy. Part. That is, the lock portion 728 is not a shape memory component. However, instead of the spring portion 68, the lock portion 728 may be a shape memory component made of a shape memory alloy. Even with this structure, the discharge control mechanism 60 can move the movable section 50 backward.

  Specifically, when the lock portion 728 is a shape memory component instead of the spring portion 68, when the movable portion 50 is at the initial position, the spring portion 68 is compressed forward and applies a discharging force to the movable portion 50. . On the other hand, when the lock portion 728 has the initial shape, it locks the locked portion 588 against the discharging force, and temporarily maintains the movable portion 50 at the initial position. When the lock portion 728 is restored to the predetermined shape, the lock portion 728 deforms so as to separate from the locked portion 588 in the Y direction. That is, the locked portion 588 is unlocked when the lock portion 728 is restored to the predetermined shape. Referring to FIGS. 13 and 15, as a result, the movable portion 50 moves rearward due to the discharging force and is located at the rear limit position.

  Referring to FIG. 12, at least one of the lock portion 728 and the spring portion 68 may be a shape memory component. For example, each of the lock portion 728 and the spring portion 68 may be a shape memory component. Even with this structure, the discharge control mechanism 60 can move the movable section 50 backward. Specifically, when the shape memory component (the lock portion 728 and the spring portion 68) has the initial shape, the lock portion 728 locks the locked portion 588 to temporarily maintain the movable portion 50 at the initial position. . The spring portion 68 applies a discharging force to the movable portion 50 at least when the shape memory component is restored to a predetermined shape. When the shape memory component is restored to the predetermined shape, the locked portion 588 is unlocked by restoring the lock portion 728 to the predetermined shape in addition to the ejection force.

  Lock portion 728 may be a shape memory component made of a shape memory polymer that is an insulator. In this case, a heating member such as a heating wire may be provided in the middle of the electric path from the first terminal 62 to the second terminal 64. The heat generating member may be arranged near the lock portion 728. Even with this structure, the discharge control mechanism 60 can move the movable section 50 backward.

  Referring to FIG. 6, the card tray 30 may include, for example, a discharge control mechanism that operates in response to a digital signal, instead of the discharge control mechanism 60 of the present embodiment. When the discharge control mechanism operates according to the digital signal, the first contact 14 may be connected to a control unit (not shown) instead of the power supply (not shown) of the electronic device 10. Further, the current supplied from the first contact 14 to the first terminal 62 may carry a digital signal output by a control unit (not shown) of the electronic device 10. In other words, the current supplied to the first terminal 62 may be an electric signal.

  Referring to FIG. 5, the structure of the mounting portion 42, the movable portion 50, and the shell 70 of the tray main body 40 can be variously modified according to the structure of the discharge control mechanism 60. In particular, the mounting portion 42 and the shell 70 may be provided as needed.

10 electronic equipment 12 predetermined surface 14 first contact
16 Second contact (contact)
18 Opening 20 Connector 22 Housing 24 Shielding Member 28 Housing 30 Card Tray 32 Internal Structure 40 Tray Main Body 40F Front End 42 Attachment 422 Concave 424 Receiving Portion 46 Mounting Portion 50 Movable Portion 50R Rear End 52 Cover 522 Rear (Exposed Surface)
54 Overhanging portion 56 Force receiving portion 58 Projecting portion 58H Hole portion 582 Received portion 588 Locked portion 60 Discharge control mechanism 62 First terminal (terminal)
622 contact part 624 connecting part 628 connecting part 64 2nd terminal (terminal)
642 contact part 648 connection part 68 spring part (shape memory part)
682 Connection end 684 Discharge end 70 Shell 72 Upper plate 722 Receiving part 728 Lock part 74 Side plate 748 Engagement piece 76 Lower plate 78 Rear plate 80 Card

Claims (11)

By moving forward in the front-rear direction, it is a card tray that is inserted and housed inside an electronic device having contacts,
The card tray includes a tray body, a movable unit, and a discharge control mechanism,
The tray body has a mounting portion for mounting a card,
The movable section is relatively movable with respect to the tray body in the front-rear direction,
The discharge control mechanism includes a terminal,
The terminal is in contact with the contact point in a housed state in which the card tray is housed in the electronic device,
A card tray, wherein the ejection control mechanism temporarily maintains the movable portion at an initial position and moves the movable portion backward from the initial position in accordance with a current flowing through the contact and the terminal. The card tray according to claim 1, wherein
The ejection control mechanism is a card tray attached to the tray body. The card tray according to claim 1 or 2, wherein:
The movable portion is relatively movable with respect to the tray body between a front limit position and a rear limit position in the front-rear direction,
The movable portion cannot move forward beyond the front limit position, and cannot move rearward beyond the rear limit position,
The card tray, wherein the initial position is at the same position as the front limit position in the front-rear direction, or between the front limit position and the rear limit position. The card tray according to claim 3, wherein
The movable part has a received part,
The internal structure including the tray body and the discharge control mechanism has a receiving portion,
A card tray in which the received portion is received by the receiving portion when the movable portion reaches the rear limit position when the movable portion moves rearward relative to the tray body. A card tray according to any one of claims 1 to 4, wherein
The discharge control mechanism includes a shape memory component,
The shape memory component is deformed from an initial shape to a predetermined shape in accordance with the current flowing through the contact and the terminal,
A card tray, wherein the ejection control mechanism moves the movable section backward from the initial position by deforming the shape memory component into the predetermined shape. The card tray according to claim 5, wherein
The shape memory component is made of a shape memory alloy,
The shape memory component is deformed and restored from the initial shape to the predetermined shape according to the current flowing through the shape memory component via the contact point and the terminal,
A card tray, wherein the ejection control mechanism moves the movable portion backward from the initial position by restoring the shape memory component to the predetermined shape. It is a card tray of Claim 6, Comprising:
The discharge control mechanism includes a lock unit and a spring unit,
At least one of the lock portion and the spring portion is the shape memory component,
The movable part has a locked part,
The lock portion locks the locked portion when the shape memory component is in the initial shape, temporarily maintains the movable portion at the initial position,
The spring portion applies a discharge force to the movable portion when at least the shape memory component is restored to the predetermined shape,
The locked portion of the card tray is unlocked when the shape memory component is restored to the predetermined shape. The card tray according to claim 7, wherein
The spring portion is the shape memory component,
The spring portion, when taking the initial shape, applies an initial force rearward to the movable portion,
The initial force is weaker than the discharge force,
The lock portion, when the spring portion has the initial shape, temporarily maintains the movable portion at the initial position against the initial force,
The card tray, wherein the locked portion is unlocked by the ejection force. The card tray according to claim 7 or 8, wherein:
The card tray wherein the spring portion is a helical spring. The card tray according to any one of claims 7 to 9, wherein:
The contact of the electronic device includes a first contact and a second contact,
The movable part is made of metal,
The discharge control mechanism includes a metal shell,
The terminal of the discharge control mechanism includes a first terminal and a second terminal,
In the housed state, the first terminal and the second terminal are in contact with the first contact and the second contact, respectively.
The spring portion has a connection end and a discharge end,
The connection end of the spring portion is connected to the first terminal,
The discharge end of the spring portion is in contact with the movable portion,
The movable portion is in contact with the shell,
The card tray wherein the shell is in contact with the second terminal. The card tray according to any one of claims 1 to 10, wherein:
The electronic device has an opening into which the card tray is inserted,
The movable section has a lid,
The card tray, wherein the lid closes the opening when the movable portion is at the initial position in the accommodated state.

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