JP3864917B2 - Card processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card processing device.
[0002]
[Prior art]
As this type of card processing apparatus, one that stores a processed card in accordance with the processing content of a card processing means for processing a card is known (for example, see Patent Document 1). The card processing apparatus described in Patent Document 1 includes a first card transport path for transporting a card inserted from a card insertion slot, card processing means provided in the card transport path for performing information processing, and the card. 1st card conveyance means which conveys a card | curd to a process part, 2nd card conveyance path extended from the 1st card conveyance path, and 2nd conveyance means provided in the 2nd card conveyance path And a card storage section provided at the end of the second card transport path, and configured to drop the card transferred to the second card transport path into the card storage section by its own weight.
[0003]
[Patent Document 1]
JP 2000-148917 A
[0004]
[Problems to be solved by the invention]
By the way, from the viewpoint of effective use of the card, there is a case where it is desired to reuse the card stored in the card storage unit. However, in the card processing device having the above-described configuration, in order to process the card stored in the card storage unit by the card processing unit, the card is once taken out from the card storage unit by manual operation, and the card is taken out. Must be inserted into the card insertion slot, which takes time and effort, and is not configured to be easily reused.
[0005]
The present invention has been made in view of the above points, and an object of the present invention is to provide a card processing device capable of easily reusing a card stored in a card storage unit.
[0006]
[Means for Solving the Problems]
A card processing device according to the present invention is provided in the vicinity of a conveyance path for introducing a card inserted from a card insertion slot, a card stop position in the conveyance path, and stores a card. A card storage unit for receiving the card, a first card contact member that can contact the card in the transport path, a second card contact member that can contact the card stored in the card storage unit, and transport The first card abutting member is brought into contact with the card in the path, and the first card abutting member is moved in a state of being in contact with the card in the transport path so as to be sent out toward the card storage unit. The second card contact member is brought into contact with the card stored in the card storage unit, and the card is stored in the card storage unit so that the card is sent out toward the transport path. The second card contact member And a driving means for moving the The drive means swings the base member on which the first card contact member and the second card contact member are pivotally supported, and the first card contact member and the second card contact member. A first actuator to be moved, and a second actuator for reciprocating the base member between a first movement position corresponding to the conveyance path and a second movement position corresponding to the card storage unit. When the first card abutting member and the second card abutting member are brought into the first swinging position by the first actuator, they are brought into a state in which they can abut against the card, and the first actuator a second. The swinging position of the base member is not in contact with the card, and the base member is moved from the first movement position to the second position with the first card contact member in the first swinging position. By moving to the moving position, the card in the transport path By moving the base member from the second movement position to the first movement position in a state where the second card contact member is set to the first swing position. The card stored in the card storage unit is sent out toward the conveyance path, and the second card abutting member moves the base member from the first movement position to the second movement position. It is in the swinging position and abuts against the card stored in the card storage unit to form a gap that can store the card sent to the card storage unit. It is characterized by that.
[0007]
The card processing apparatus according to the present invention includes a conveyance path, a card processing unit, a card storage unit, a first card contact member, a second card contact member, and a drive unit. The first card contact member abuts on the card in the transport path so that the card abutted on the first card contact member is sent out toward the card storage portion. Will move. Thereby, the card | curd in a conveyance path can be conveyed to a card storage part. Further, the second card abutting member comes into contact with the card stored in the card storage unit by the driving means, and the card in contact with the second card abutting member is sent out toward the conveyance path. The second card contact member will move. Thereby, the card | curd accommodated in the card | curd accommodating part can be conveyed to a conveyance path. As a result, the card can be stored in the card storage unit, and the card stored in the card storage unit can be easily reused.
[0008]
Further, in the present invention, since the card is conveyed by moving the first card abutting member and the second card abutting member, the conveyance caused by the card contamination etc. as compared with the roller conveyance method. The occurrence of defects can be suppressed and the reliability is improved. In addition, since the roller cleaning is unnecessary, the maintainability is also improved.
[0009]
Also, In the present invention, The driving means swings the first card abutting member and the second card abutting member, and the base member on which the first card abutting member and the second card abutting member are pivotally supported. And a second actuator for reciprocating the base member between a first movement position corresponding to the transport path and a second movement position corresponding to the card storage unit, When the first card abutting member and the second card abutting member are brought into the first swing position by the first actuator, the first card abutting member and the second card abutting member are brought into a state where they can abut against the card. When in the swing position, the base member is not in contact with the card, and the base member is moved from the first movement position to the second position in a state in which the first card contact member is in the first swing position. By moving the card to the position, the card on the transport path is The card is sent out toward the card storage unit, and the base member is moved from the second movement position to the first movement position in a state where the second card abutting member is at the first swing position. Send the card stored in the storage unit toward the transport path . When configured in this manner, the actuator for swinging the first card abutting member and the actuator for swinging the second card abutting member are shared, and the conveyance path, the card storage portion, The number of actuators necessary for transporting the card between the two can be minimized, and the increase in the number of components can be suppressed to suppress an increase in cost.
[0010]
Also, In the present invention, The second card contact member is in the first swing position when the base member is moved from the first movement position to the second movement position. Abutting to form a gap that can store the card sent to the card storage unit . When comprised in this way, the card | curd newly conveyed by the 1st card | curd contact member can be reliably accommodated in the card | curd accommodating part by the state where the card | curd is accommodated in the card | curd accommodating part.
[0011]
The portion of the second card contact member that contacts the card stored in the card storage portion when the base member is moved from the first movement position to the second movement position is the second card contact portion. It is preferable that the contact member is formed to be inclined with respect to the moving direction. When comprised in this way, the clearance gap which can accommodate the card sent out to a card storage part can be formed reliably.
[0012]
Further, a biasing force is applied to the card stored in the card storage portion in the thickness direction so that the card can come into contact with the second card contact member at the first swing position. It is preferable to further include a biasing member. When comprised in this way, the card | curd accommodated in the card | curd accommodating part can be reliably made to contact | abut to a 2nd card | curd contact member, and conveyance failure can be prevented with a simple structure.
[0013]
Moreover, it is preferable that the 1st card contact member and the 2nd card contact member each have a claw part which can contact | abut the edge part of the width direction of a card | curd. When comprised in this way, each of a 1st card contact member and a 2nd card contact member can be made to contact | abut to a card | curd reliably. Further, the contact area between the first card abutting member or the second card abutting member and the card can be minimized, and the card dirt is prevented from adhering to each card abutting member. be able to.
[0014]
Moreover, it is preferable that the card storage part is provided below the conveyance path. When configured in this manner, the card storage unit can be laid out using the space below the transport path, the depth length in the card transport direction in the transport path can be reduced, and the depth direction of the device can be reduced. Can be made compact.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
A card processing apparatus according to an embodiment of the present invention will be described with reference to the drawings.
[0016]
FIG. 1 is a side view of the card processing apparatus according to the present embodiment, and FIG. 2 is a front view of the card processing apparatus according to the present embodiment. FIG. 3 is a plan view of a base member included in the card processing apparatus according to the present embodiment, and FIG. 4 is a side view of the base member included in the card processing apparatus according to the present embodiment.
[0017]
As shown in FIGS. 1 and 2, the card processing apparatus 1 includes a housing 3, and the housing 3 includes a pair of first and second side housings 5 and 7. A card insertion slot 9 for inserting the card C is provided at a substantially central position in the vertical direction on the front side of the housing 3 so that the width direction of the non-contact type IC card (hereinafter simply referred to as “card”) C is vertical. It has been. And the conveyance path 11 which introduces the card | curd C inserted from the card insertion slot 9 is formed by the mutually opposing surface of the 1st and 2nd side housing | casing 5,7, This conveyance path 11 is a card | curd. It extends from the insertion port 9 along the card insertion direction.
[0018]
A driving roller 13 is rotatably supported near the card insertion slot 9 in the first side housing 5. The drive roller 13 is arranged facing a conveyance path 11 from a window (not shown) drilled in the first side housing 5 and is driven to rotate by a drive mechanism (not shown). A pinch roller 15 is rotatably supported at a position facing the drive roller 13 in the second side housing 7. The pinch roller 15 is disposed facing the conveyance path 11 from a window (not shown) drilled in the second side housing 7. The card C inserted from the card insertion slot 9 is sandwiched between the drive roller 13 and the pinch roller 15 and is conveyed through the conveyance path 11 by the rotation of the drive roller 13. When the card C being transported is removed from the drive roller 13 and the pinch roller 15, the transport of the card C is stopped and the stop position of the card C is defined.
[0019]
An information processing board 17 serving as a card processing unit for processing the card C is provided outside the surface forming the transport path 11 in the second side housing 7 in the vicinity of the stop position of the card C in the transport path 11. It is arranged. The information processing board 17 is provided with an antenna section 19 for wirelessly transferring information to and from the antenna section (not shown) of the card C.
[0020]
Below the transport path 11, a card storage unit 21 for storing the card C is provided. Similar to the transport path 11, the card storage unit 21 is formed by mutually opposing surfaces of the first and second side housings 5 and 7 and communicates with the transport path 11. The distance between the first side housing 5 and the second side housing 7 in the portion where the transport path 11 and the card storage unit 21 communicate with each other is set to a length that allows only one card C to pass through. The portion that communicates between the transport path 11 and the card storage unit 21 functions as a gauge. In the present embodiment, the first side housing 5 and the second side housing 7 are formed by forming a recess in the surface of the second side housing 7 that faces the first side housing 5. Is configured to provide a space for defining the transport path 11 and the card storage unit 21.
[0021]
A storage card transport mechanism 23 for transporting the card C between the transport path 11 and the card storage unit 21 outside the surface on which the transport path 11 and the card storage unit 21 are formed in the first side housing 5. Is provided. The storage card transport mechanism 23 includes a first card contact member 25, a second card contact member 27, a base member 29, an electromagnetic solenoid 31 as a first actuator, and a second actuator. And a drive motor 33.
[0022]
The first card abutting member 25 can abut on the card C in the transport path 11 and is pivotally supported by the base member 29 so as to be swingable. As shown in FIGS. 3 and 4, the first card abutting member 25 has a pair of first claw portions 25 a that can abut against the end of the card C in the width direction. The first card abutting member 25 is provided with a pair of protruding portions 25b that function as swinging shafts. Here, the card C in the transport path 11 includes not only the card C that is entirely located in the transport path 11 but also a card C in which at least a part thereof is located in the transport path 11.
[0023]
The second card contact member 27 can contact the card C stored in the card storage portion 21 and is pivotally supported by the base member 29 so as to be swingable. As shown in FIGS. 3 and 4, the second card abutting member 27 has a pair of second claw portions 27 a that can abut against the end of the card C in the width direction. The lower end portion of the second claw portion 27a is inclined with respect to the moving direction of the second card abutting member 27, and is substantially "<" shaped when viewed from the card insertion direction. It is said that. The second card abutting member 27 is provided with a pair of protruding portions 27b that function as swinging shafts.
[0024]
As shown in FIGS. 3 and 4, the base member 29 is made of a substantially plate-like member, and has an opening 5 a formed in the first side housing 5 from the conveyance path 11 to the card storage portion 21. Via the second side housing 7. The edge of the opening 5a in the first side housing 5 is engageable with the end of the base member 29, and serves as a guide and a presser for the base member 29 when the base member 29 moves along the opening. A functioning wall 5b is provided.
[0025]
A wall portion 29b in which a hole portion 29a into which the protruding portion 25b of the first card abutting member 25 is inserted is opposed to the base member 29 at a position above the substantially vertical center. By inserting the protruding portion 25b into the hole 29a in this way, the first card contact member 25 is supported so as to be swingable about an axis extending in the card insertion direction. Further, a wall portion 29d in which a hole portion 29c into which the protruding portion 27b of the second card abutting member 27 is inserted is provided at a position below the substantially vertical center of the base member 29. . By inserting the protruding portion 27b into the hole 29c in this way, the second card contact member 27 is supported so as to be swingable about an axis extending in the card insertion direction. An opening 29e for allowing the second claw portion 27a to face the card storage portion 21 side is formed at a position below the wall portion 29d in the base member 29. Note that the first claw portion 25 a faces the conveyance path 11 side beyond the upper end portion of the base member 29.
[0026]
An electromagnetic solenoid 31 is attached to a substantially central position in the vertical direction of the base member 29. The electromagnetic solenoid 31 has a movable iron core 31a and operates the movable iron core 31a in the longitudinal direction thereof. One end of the movable iron core 31a is engaged with an engagement portion 25c formed on the first card contact member 25, and the other end is an engagement formed on the second card contact member 27. It is engaged with the portion 27c.
[0027]
In a state where the movable iron core 31a is moved downward, the engaging portion 25c of the first card abutting member 25 abuts on a tapered surface formed at one end of the movable iron core 31a, and the first card abutting The member 25 is in the first swing position, and the first claw portion 25a is advanced to the transport path 11 side. As a result, the first card abutting member 25 is in a state in which the first claw portion 25a can abut against the card C. The length of the first claw portion 25a is set so as to come into contact with the end portion (upper end portion) in the width direction of the card C in the transport path 11 in a state where the first claw section 25a is advanced to the transport path 11 side. Yes.
[0028]
When the movable iron core 31a is moved downward, the second card contact member 27 is also set to the first swing position, and the second claw portion 27a is advanced to the card storage portion 21 side. It becomes. As a result, the second card abutting member 27 is in a state in which the second claw portion 27a can abut against the card C. Note that the length of the second claw portion 27a is the card C located closest to the base member 29 among the cards C stored in the card storage portion 21 in a state where the second tab portion 27a is advanced to the card storage portion 21 side. It is set so as to contact only the end portion (upper end portion) in the width direction.
[0029]
On the other hand, when the movable iron core 31a is moved upward, the engaging portion 25c of the first card abutting member 25 rides on the outer peripheral surface from the tapered surface formed at one end of the movable iron core 31a. The card abutting member 25 is in the second swing position, and the first claw portion 25a is retracted from the conveyance path 11 side. As a result, the first card abutting member 25 is brought into a state in which the first claw portion 25a does not abut against the card C.
[0030]
When the movable iron core 31a is moved upward, the second card abutting member 27 is also moved to the second swing position by pulling up the engaging portion 27c by the movable iron core 31a. The claw portion 27a is withdrawn from the card storage portion 21 side. As a result, the second card abutting member 27 is in a state where the second claw portion 27a does not abut against the card C.
[0031]
At the lower end portion of the base member 29, a wall portion 29g in which a hole portion 29f into which the shaft 35 is inserted is formed. The shaft 35 is fixed to the base member 29 (wall portion 29g) while being inserted into the hole 29f. The shaft 35 is connected to the drive motor 33 via a ball screw mechanism 37. The ball screw mechanism 37 includes a screw shaft 41 that extends along the opening and is rotatably supported by the first side housing 5 via a bearing 39, and a female screw that is screwed onto the screw shaft 41. Part 43. The end portion of the shaft 35 is fixed to the female screw portion 43. A driven gear 47 that meshes with a drive gear 45 that is fixed to the rotation shaft of the drive motor 33 is fixed to the screw shaft 41. Therefore, by operating the drive motor 33, the base member 29 can be reciprocated in the vertical direction following the rotation of the screw shaft 41.
[0032]
When the drive motor 33 is rotated in the first direction and the female screw portion 43 is moved to a predetermined upper limit position, the base member 29 is moved to the first movement position corresponding to the transport path 11. On the other hand, when the drive motor 33 is rotated in a second direction opposite to the first direction and the female screw portion 43 is moved to a predetermined lower limit position, the base member 29 is moved to a second position corresponding to the card storage portion 21. It will move to the movement position.
[0033]
The first side housing 5 has an interference with the first claw portion 25a of the first card abutting member 25 when the base member 29 is in the first movement position continuously with the opening. A notch 5c is formed to prevent the above.
[0034]
The card storage unit 21 is provided with a plate member 49 and a spring member 51 as urging means. The spring member 51 is disposed between the plate member 49 and the surface of the second side housing 7 that forms the card storage portion 21, and is attached to the plate member 49 toward the first side housing 5. Power is given. As a result, the biasing force of the spring member 51 acts on the card C stored in the card storage unit 21 in the thickness direction of the card C via the plate member 49.
[0035]
Next, with reference to FIGS. 5 to 15, a card transport operation between the transport path 11 and the card storage unit 21 in the card processing apparatus 1 having the above-described configuration will be described. 5 to 12 are front views for explaining a card transport operation from the transport path 11 to the card storage unit 21, and FIGS. 13 to 15 are card transport operations from the card storage unit 21 to the transport path 11. It is a front view for demonstrating.
[0036]
First, a card transport operation from the transport path 11 to the card storage unit 21 will be described. As shown in FIG. 5, the card C is at the stop position, and as a result of performing information processing such as rewriting of the value information in the card by the information processing board 17, the card C has no value information remaining in the card. When it becomes a so-called used card, it is conveyed from the stop position in the conveyance path 11 toward the card storage unit 21. As shown in FIG. 6, the electromagnetic solenoid 31 is operated to move the movable iron core 31a upward, and the first card contact member 25 and the second card contact member 27 are moved to the second swing position. Swing. In FIG. 6, the base member 29 is in the second movement position corresponding to the card storage unit 21.
[0037]
When the first card contact member 25 and the second card contact member 27 swing to the second swing position, the drive motor 33 rotates in the first direction and moves the female screw portion 43. The movement of the female screw portion 43 is transmitted to the base member 29 through the shaft 35, and the base member 29 moves upward from the second movement position as shown in FIG. At this time, since the first card contact member 25 and the second card contact member 27 are in the second swing position, the first card contact member 25 and the second card contact member 27 and the card C does not engage with the base member 29 and does not hinder the movement of the base member 29.
[0038]
As shown in FIG. 8, when the base member 29 moves to the first movement position corresponding to the transport path 11, the rotation of the drive motor 33 stops and the base member 29 stops at the first movement position. The electromagnetic solenoid 31 is activated to move the movable iron core 31a upward, and the first card contact member 25 and the second card contact member 27 swing to the second swing position. As a result, the first card abutting member 25 is in a state in which the first claw portion 25a is advanced into the transport path 11, and the second card abutting member 27 moves the second claw portion 27a between the transport path 11 and the card. It will be in the state advanced to the space which connects the accommodating part 21. FIG.
[0039]
When the first card contact member 25 and the second card contact member 27 swing to the first swing position, the drive motor 33 rotates in the second direction and moves the female screw portion 43 downward. . The movement of the female screw portion 43 is transmitted to the base member 29 through the shaft 35. As shown in FIG. 9, the base member 29 moves downward from the first movement position, and the card C in the stop position moves. It is sent out toward the card storage unit 21. In this state, the card C moves downward due to its own weight.
[0040]
When the base member 29 starts to move downward, as shown in FIG. 9, the second claw portion 27a of the second card abutting member 27 has an inclined lower surface formed in the card storage. Of the cards C stored in the portion 21, the card C abuts on the card C closest to the base member 29. When the base member 29 moves further downward, the second claw portion 27a presses the card C closest to the base member 29 against the urging force of the spring member 51, as shown in FIG. A gap in which the card C sent to the card storage unit 21 can be stored is formed between the card C closest to the base member 29 and the base member 29. As a result, the card C conveyed toward the card storage unit 21 enters the gap formed between the card C closest to the base member 29 and the base member 29. At this time, when the card C transported toward the card storage portion 21 enters the gap formed between the card C closest to the base member 29 and the base member 29, the urging force of the spring member 51 is received. Therefore, it is difficult to move downward only by its own weight, but the first claw portion 25a of the first card contact member 25 is moved to the card C by the downward movement of the base member 29 as shown in FIG. As the base member 29 is lowered, the card C is also conveyed downward, that is, toward the card storage unit 21.
[0041]
As shown in FIG. 12, when the base member 29 moves to the second movement position corresponding to the card storage unit 21, the rotation of the drive motor 33 stops and the base member 29 stops at the second movement position. . As a result, the card C is stored in the card storage unit 21.
[0042]
Next, a card transport operation from the card storage unit 21 to the transport path 11 will be described. When the card is transported from the card storage unit 21 to the transport path 11, the position of the base member 29 is the second movement position as an initial state, and the first card contact member 25 and the second card contact member 27 are moved. The position becomes the first swing position (the state shown in FIG. 12).
[0043]
In the initial state, the drive motor 33 rotates in the first direction, and the base member 29 moves upward from the second movement position as shown in FIG. At this time, the second claw portion 27 a of the second card abutting member 27 contacts only one card C located closest to the base member 29 among the cards C stored in the card storage portion 21. Then, the card C is sent out upward (conveyance path 11). Note that even when a plurality of cards C are conveyed upward due to frictional resistance between the cards C or the second claw portion 27a coming into contact with the plurality of cards C, FIG. As shown, since the portion that communicates the transport path 11 and the card storage unit 21 functions as a gauge, only one card C is transported to the transport path 11.
[0044]
When the base member 29 moves further upward, as shown in FIG. 15, the card C lifted by the contact of the second claw portion 27 a is moved to the transport path 11. And if the base member 29 moves to the 1st movement position corresponding to the conveyance path 11, rotation of the drive motor 33 will stop and the base member 29 will stop in a 1st movement position. Thereby, the conveyance of the card C to the conveyance path 11 is completed.
[0045]
As described above, in the card processing apparatus 1 according to the present embodiment, the transport path 11, the information processing board 17, the card storage unit 21, and the storage card transport mechanism unit 23 (the first card contact member 25, the second card contact member 25). Card contact member 27, base member 29, electromagnetic solenoid 31, drive motor 33, etc.), and the first card contact member 25 is brought into contact with the card C in the transport path 11 by the storage card transport mechanism 23. The first card abutting member 25 moves so that the card C in contact with the first card abutting member 25 is sent out toward the card storage unit 21. As a result, the card C in the transport path 11 can be transported to the card storage unit 21. Further, the storage card transport mechanism unit 23 causes the second card contact member 27 to contact the card C stored in the card storage unit 21, and the card C to which the second card contact member 27 contacts The second card contact member 27 is moved so as to be sent out toward the transport path 11. As a result, the card C stored in the card storage unit 21 can be transferred to the transfer path 11. As a result, the card C can be stored in the card storage unit 21 and the card C stored in the card storage unit 21 can be easily reused.
[0046]
Further, in the present embodiment, the card C is conveyed by moving the first card abutting member 25 and the second card abutting member 27, so that the card contamination, etc., as compared with the roller conveying method. It is possible to suppress the occurrence of a conveyance failure due to this, and the reliability is improved. In addition, since the roller cleaning is unnecessary, the maintainability is also improved.
[0047]
In the present embodiment, the storage card transport mechanism 23 includes a base member 29 on which a first card contact member 25 and a second card contact member 27 are pivotally supported, and a first card. An electromagnetic solenoid 31 that swings the abutting member 25 and the second card abutting member 27, a first moving position corresponding to the transport path 11 and a second moving position corresponding to the card storage portion 21. When the first card contact member 25 and the second card contact member 27 are set to the first swing position by the electromagnetic solenoid 31, the drive motor 33 is moved back and forth. When it is in a state where it can be brought into contact with the card C and is brought into the second swing position by the electromagnetic solenoid 31, it is brought into a state where it is not in contact with the card C, and the first card contact member 25 is in the first swing position. The base member 29 in the state By moving from the first movement position to the second movement position, the card C in the transport path 11 is sent out toward the card storage portion 21, and the second card contact member 27 is moved to the first swing position. In this state, it is preferable that the card C stored in the card storage unit 21 is sent out toward the transport path 11 by moving the base member 29 from the second movement position to the first movement position. . In this case, the actuator for swinging the first card contact member 25 and the actuator for swinging the second card contact member 27 are shared, and the transport path 11 and the card are shared. The number of actuators necessary for transporting the card C to and from the storage unit 21 can be minimized, and an increase in the number of components can be suppressed to suppress an increase in cost.
[0048]
In the present embodiment, the second card contact member 27 is in the first swing position when the base member 29 is moved from the first movement position to the second movement position. A gap is formed in contact with the card C stored in the storage unit 21 so that the card C sent to the card storage unit 21 can be stored. As a result, even when the card C is stored in the card storage unit 21, the card C newly conveyed to the card storage unit 21 by the first card contact member 25 can be securely stored.
[0049]
Further, in the present embodiment, when the base member 29 of the second card abutting member 27 is moved from the first movement position to the second movement position, the card C stored in the card storage unit 21 is contacted. The contact portion (the tip portion of the second claw portion 27 a) is formed to be inclined with respect to the moving direction of the second card contact member 27. Thereby, the space | interval which can accommodate the card | curd C sent out to the card | curd accommodating part 21 can be formed reliably.
[0050]
Further, in the present embodiment, the card C stored in the card storage unit 21 is arranged so that the card C can come into contact with the second card contact member 27 at the first swing position. A spring member 51 is provided for applying a biasing force in the thickness direction. Thereby, the card | curd C accommodated in the card | curd accommodating part 21 can be reliably made to contact | abut to the 2nd card | curd contact member 27, and conveyance failure can be prevented with a simple structure.
[0051]
In the present embodiment, the first card abutting member 25 and the second card abutting member 27 have claw portions 25 a and 27 a that can abut against the end portion in the width direction of the card C, respectively. . Thereby, each of the 1st card contact member 25 and the 2nd card contact member 27 can be made to contact with card C reliably. Further, the contact area between the first card abutting member 25 or the second card abutting member 27 and the card C can be reduced to the minimum necessary, and the card dirt is placed on each card abutting member 25, 27. It can suppress adhering.
[0052]
In the present embodiment, the card storage unit 21 is provided below the transport path 11. Thereby, the card storage part 21 can be laid out using the space below the transport path 11, the depth length in the card transport direction in the transport path 11 can be reduced, and the depth direction of the apparatus can be reduced. Compactness can be achieved.
[0053]
The present invention is not limited to the embodiment described above. For example, the card storage unit 21 is provided below the conveyance path 11, but is not limited thereto, and may be provided above the conveyance path 11 or may be provided on the back side of the conveyance path 11. Further, the card insertion slot 9 and the transport path 11 are provided so that the width direction of the card C is in a vertical state. It may be done.
[0054]
Further, in the present embodiment, the drive roller 13 and the pinch roller 15 are provided as a card transport mechanism for transporting the card C inserted from the card insertion slot 9, but the card transport mechanism is not necessarily required. For example, the card C may be manually inserted to the stop position in the transport path 11.
[0055]
Moreover, although the 1st card contact member 25 and the 2nd card contact member 27 are pivotally supported by the common base member 29, you may be pivotally supported by another member, respectively. In this case, it is preferable that the drive motor 33 is also provided for each member.
[0056]
Further, although the first card contact member 25 and the second card contact member 27 are swung by one electromagnetic solenoid 31, the first card contact member 25 and the second card contact member are used. An electromagnetic solenoid may be provided for each 27, and the first card contact member 25 and the second card contact member 27 may be swung by each electromagnetic solenoid. Further, the first actuator is not limited to the electromagnetic solenoid 31, and other actuators may be used. Further, the second actuator is not limited to the drive motor 33, and other actuators may be used.
[0057]
Moreover, although the spring member 51 is used as the urging means, the present invention is not limited to this, and other elastic members such as a leaf spring may be used.
[0058]
Further, although the card C is a non-contact type IC card, it may be a contact type IC card or a magnetic card.
[0059]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to provide a card processing device capable of easily reusing a card stored in a card storage unit.
[Brief description of the drawings]
FIG. 1 is a side view of a card processing apparatus according to the present embodiment.
FIG. 2 is a front view of the card processing apparatus according to the present embodiment.
FIG. 3 is a plan view of a base member included in the card processing apparatus according to the present embodiment.
FIG. 4 is a side view of a base member included in the card processing apparatus according to the present embodiment.
FIG. 5 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 6 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 7 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 8 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 9 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 10 is a front view for explaining a card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 11 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 12 is a front view for explaining the card transport operation from the transport path to the card storage unit in the card processing apparatus according to the present embodiment.
FIG. 13 is a front view for explaining the card transport operation from the card storage unit to the transport path in the card processing apparatus according to the present embodiment.
FIG. 14 is a front view for explaining the card transport operation from the card storage unit to the transport path in the card processing apparatus according to the present embodiment.
FIG. 15 is a front view for explaining the card transport operation from the card storage unit to the transport path in the card processing device according to the present embodiment;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Card processing apparatus, 3 ... Housing | casing, 9 ... Card insertion slot, 11 ... Transfer path, 17 ... Information processing board, 21 ... Card storage part, 23 ... Storage card conveyance mechanism part, 25 ... 1st card contact 25a ... first claw part, 27 ... second card abutting member, 27a ... second claw part, 29 ... base member, 31 ... electromagnetic solenoid, 33 ... drive motor, 37 ... ball screw mechanism part, 49 ... plate member, 51 ... spring member, C ... card.

Claims (5)

A conveyance path for introducing a card inserted from the card insertion slot;
A card processing unit that is provided near the stop position of the card in the transport path, and processes the card;
A card storage section for storing the card;
A first card contact member capable of contacting a card in the transport path;
A second card contact member capable of contacting a card stored in the card storage unit;
The first card contact member is brought into contact with the card in the transport path, and the first card contact member is in contact with the card in the transport path so as to be sent out toward the card storage portion. The card abutting member is moved, the second card abutting member is abutted against the card stored in the card storage portion, and the card is sent out toward the transport path. Drive means for moving the second card contact member in contact with the card stored in the storage unit ;
The driving means includes
A base member on which the first card contact member and the second card contact member are pivotably supported;
A first actuator for swinging the first card contact member and the second card contact member;
A second actuator that reciprocates the base member between a first movement position corresponding to the transport path and a second movement position corresponding to the card storage unit,
When the first card abutting member and the second card abutting member are brought into a first swing position by the first actuator, the first card abutting member and the second card abutting member are brought into a state in which they can abut against the card. When the second swing position is set, the state is not brought into contact with the card,
By moving the base member from the first movement position to the second movement position in a state where the first card contact member is at the first swing position, the first card abutting member is in the conveyance path. Sending out the card toward the card storage unit,
By moving the base member from the second movement position to the first movement position in a state where the second card abutting member is at the first swing position, the card storage unit Send out the stored card toward the transport path,
The second card contact member is in the first swing position when the base member is moved from the first movement position to the second movement position. A card processing device, wherein the card processing device is configured to form a gap in contact with a stored card to store the card sent to the card storage unit . In the second card abutting member, when the base member is moved from the first movement position to the second movement position, a portion that abuts on the card accommodated in the card accommodation portion is The card processing device according to claim 1 , wherein the card processing device is formed to be inclined with respect to a moving direction of the second card contact member.   A biasing force is applied to the card stored in the card storage portion in the thickness direction so that the card can come into contact with the second card contact member at the first swing position. The card processing device according to claim 1, further comprising an urging member for performing the operation.   2. The card processing device according to claim 1, wherein each of the first card contact member and the second card contact member has a claw portion that can contact an end portion in a width direction of the card. . The card storage section, the card processing apparatus according to any one of claims 1 to 4, characterized in that provided below the conveying path.

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