JP2017054308A - Card issuing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a card issuing apparatus which can improve operating efficiency.SOLUTION: A card issuing apparatus includes a plurality of mounting units, a detection unit, a card issuing unit, an acquisition unit, a storage control unit, and a card issuance control unit. The detection unit detects the types of card cassettes mounted on the mounting units. On receipt of a power stop request signal, the storage control unit causes a non-volatile storage unit to store the types of the card cassettes detected by the detection unit and information on an active cassette. On receipt of a power start request signal, the card issuance control unit compares the types of the card cassettes detected by the detection unit with the types of the card cassettes stored in the non-volatile storage unit, and does not change the active cassette when the types of the card cassettes on the mounting units are not changed.SELECTED DRAWING: Figure 4

Description

  Embodiments described herein relate generally to a card issuing device.

  2. Description of the Related Art There is known a card issuing device that takes out a card from a card cassette loaded with a card such as a license, and forms an image on the surface of the card and issues it. This apparatus may be capable of loading a plurality of card cassettes for each type of card. In such a case, when all the cards in a certain card cassette are consumed, the card issuing device selects the next card cassette according to a predetermined use order and issues the card.

  However, the conventional card issuing device sometimes takes out a card from another card cassette and issues it before the card in the card cassette is completely consumed. As a result, the card cassette with the remaining card may be left unusable, which may reduce the operation efficiency.

JP 2001-180161 A JP 2002-304643 A

  The problem to be solved by the present invention is to provide a card issuing device capable of improving operational efficiency.

  The card issuing device according to the embodiment includes a plurality of mounting units, a detecting unit, a card issuing unit, an acquisition unit, a storage control unit, and a card issue control unit. A card cassette into which a card is loaded is mounted on each of the plurality of mounting portions. A detection part detects the kind of card cassette each mounted in the plurality of mounting parts. The card issuing unit takes out the card from the card cassette and issues it with the power supplied from the power source. The acquisition unit acquires a stop request signal for stopping power supply from the power source and a start request signal for starting power supply from the power source. When the acquisition request is acquired by the acquisition unit, the storage control unit stores the type of the card cassette detected by the detection unit and the information of the active cassette from which the card issuing unit has taken out the card in a nonvolatile storage. Store in the department. The card issue control unit compares the type of the card cassette detected by the detection unit with the type of the card cassette stored in the nonvolatile storage unit when the acquisition request signal is acquired by the acquisition unit, and The active cassette is not changed when the type of the card cassette attached to each of the attachment parts is not changed.

Schematic which shows an example of a structure of the card issuing apparatus 1 in embodiment. The block diagram centering on the card cassette insertion port 20 in which the card cassette 22 was inserted. The figure which represented typically the structure by which the convex part 23a is engage | inserted by the recessed part of the cassette shape detection sensor S. FIG. The figure which shows an example of a structure of the card issuing apparatus 1 centering on the control part 110 in embodiment. The figure which shows an example of the cassette use condition save information memorize | stored in the non-volatile memory | storage part 122. FIG. The figure which represented typically a mode that the card cassette 22 inserted in the several card cassette insertion port 20 was consumed. The figure showing an example of the scene where the card cassette 22 is not exchanged in the cassette use state of FIG. The figure showing the prior art example of the scene where the card cassette 22 is replaced | exchanged in the cassette use state of FIG. The figure showing an example in embodiment of this invention of the scene where the card cassette 22 is replaced | exchanged in the cassette use state of FIG. The flowchart which shows an example of the flow of the process performed by the control part 110 in embodiment. The figure which shows an example of the cassette use condition monitoring information memorize | stored in the volatile memory | storage part. 11 is a flowchart showing processing to be performed by interruption while the processing of the flowchart shown in FIG. 10 is being performed. The figure which represented the use condition of the card cassette 22 typically. FIG. 14 is a diagram illustrating an example of cassette use state save information stored when the card cassette 22 of FIG. 13 is used. FIG. 14 is a diagram illustrating an example of the usage state of the card cassette 22 when the power is turned off when the card cassette 22 of FIG. 13 is used and then the power is turned on. FIG. 14 is a diagram illustrating another example of the usage state of the card cassette 22 when the power is turned off when the card cassette 22 of FIG. 13 is used and then the power is turned on.

  Hereinafter, a card issuing device according to an embodiment will be described with reference to the drawings. The card issuing device issues a card such as a driver's license having a plurality of types such as gold, green, and blue. The card issuing device prints a user's face image on a card base material, or prints user information such as an address, name, and driver's license number. In addition to the driver's license described above, the card in this embodiment may be a certificate that proves a specific skill, such as a student ID card, employee ID card, credit card, point card, transportation IC card, or the like. May be. In the present embodiment, the card used by the card issuing device will be described as a driver's license.

  Drawing 1 is a schematic diagram showing an example of composition of card issuing device 1 in an embodiment. The card issuing apparatus 1 in the present embodiment includes, for example, a card hopper unit 10, an image forming unit 30, a transport unit 40, an overcoat unit 50, a stacker unit 60, and a control unit 110.

  The card hopper unit 10 has a plurality of card cassette insertion ports 20. A card cassette 22 loaded with a plurality of cards is inserted into the card cassette insertion slot 20. Under the control of the control unit 110, the card hopper unit 10 takes out the cards C one by one from the card cassette 22 inserted into the card cassette insertion slot 20, and conveys them to the image forming unit 30 described later.

  FIG. 2 is a configuration diagram centering on the card cassette insertion slot 20 into which the card cassette 22 is inserted. The card cassette 22 is loaded with a plurality of cards C stacked in the thickness direction inside the cassette housing 23. For example, a convex portion 23a corresponding to the type of the card C is provided on one side surface of the cassette housing 23 so that the type of the card C loaded therein can be specified. Further, among the side surfaces of the cassette housing 23, for example, a side surface opening 24 is provided at the bottom of the side surface facing the side surface on which the convex portion 23a is provided in order to discharge the internal card C to the outside. . A pickup roller 26 is provided on the lower surface of the cassette housing 23, for example. The pick-up roller 26 discharges the card C located at the lowermost position among the stacked cards C from the side opening 24 by frictional force. The pickup roller 26 is rotated by an actuator (not shown) that is driven under the control of the control unit 110. Further, a lower surface opening 25 is provided on the lower surface of the cassette housing 23 in order to detect whether or not the internal card C remains.

  The card cassette insertion slot 20 includes, for example, a housing 21, a cover portion 21a, cassette shape detection sensors S1 to S3, and a card presence / absence detection sensor S4. As shown in the figure, the housing 21 is formed in, for example, a hollow polyhedron or a cylindrical shape in which the card cassette 22 can be placed. The card cassette insertion slot 20 is an example of a mounting unit.

  The cover portion 21 a is pivotally supported with respect to the housing 21 at one end portion of the side surface constituting the housing 21. For example, the cover portion 21 a is opened and closed by the operator's hand when the card cassette 22 is placed inside the housing 21.

  The cassette shape detection sensors S1 to S3 are, for example, recessed light shielding sensors, which project light from one end of the recess toward the other end, and receive the light projected at the other end. When the card cassette 22 is placed inside the casing 21 of the card cassette insertion slot 20, the convex portion 23a is fitted into a concave portion in a part or all of the cassette shape detection sensors S1 to S3. Hereinafter, when the cassette shape detection sensors S1 to S3 are not particularly distinguished, the cassette shape detection sensor S will be simply referred to as a cassette shape detection sensor S. The number of the cassette shape detection sensors S is not limited to three as described above, and may be changed according to the type of the convex portion 23a.

FIG. 3 is a diagram schematically illustrating a structure in which the convex portion 23 a is fitted into the concave portion of the cassette shape detection sensor S. For example, a light projecting portion Sa for projecting light is provided at one end of the concave portions in the cassette shape detection sensors S1 to S3, and for example, a light receiving portion Sb for receiving light is provided at the other end of the concave portion. . When the convex part 23a is fitted into the concave part, the light projected by the light projecting part Sa is blocked by the convex part 23a and is not received by the light receiving part Sb provided at the other end part. Since the shape of the convex portion 23a corresponds to the type of the card C, the type of the card C can be specified by the light receiving state of each cassette shape detection sensor S. For example, in the case of a type A card C, the convex portion 23a is provided at a position where the light projected in the cassette shape detection sensor S1 and the cassette shape detection sensor S1 is blocked. The part 23a is provided at a position that blocks the light projected in the cassette shape detection sensor S2 and the cassette shape detection sensor S3. In this way, the cassette shape detection sensor S detects the shape of the card cassette 22. Further, the cassette shape detection sensor S may be movable. In this case, the cassette shape detection sensor S moves to each card cassette 22 and detects the shape of the card cassette 22.
The cassette shape detection sensor S outputs a detection value (the amount of received light measured by each cassette shape detection sensor S) that can recognize the shape of the card cassette 22 to the control unit 110 described later. Based on the detection value of the cassette shape detection sensor S, the control unit 110 specifies the shape of the card cassette 22, that is, the type of the card C inside the card cassette 22. Further, the cassette shape detection sensor S may compare the measured amount of received light with a threshold value and output a discrete value signal indicating the shape of the card cassette 22 to the control unit 110.

  The shape of the card cassette 22 may be detected by the following configuration. For example, when an image capable of specifying the type of the internal card C is attached to the card cassette 22, the card issuing device 1 specifies the type of the card cassette 22 (card C) by reading this image. May be. Specifically, when a two-dimensional code such as a QR code (registered trademark) or a bar code in which information representing the type of the card C is encrypted is printed on the surface of the cassette housing 23, the cassette shape detection sensor S Reads the two-dimensional code, analyzes (decodes) the read two-dimensional code, and outputs it to the control unit 110. Thereby, the control unit 110 specifies the type of the card cassette 22 (card C) based on the analyzed two-dimensional code.

  Further, when a convex portion or a concave portion is provided for each card cassette 22, the card issuing device 1 specifies the type of the card cassette 22 (card C) by measuring the distance to the convex portion or the concave portion. Also good. For example, when the cassette housing 23 is provided with a convex portion protruding in the thickness direction according to the type of the card cassette 22 (card C), the cassette shape detection sensor S emits light on the convex surface of the convex portion. The distance (displacement) in the thickness direction of the convex portion is measured by irradiating and receiving the reflected light. In this case, the cassette shape detection sensor S is a distance measuring sensor such as a laser Doppler vibrometer. The cassette shape detection sensor S outputs a signal indicating the measured distance to the control unit 110. Thereby, the control part 110 specifies the kind of card cassette 22 (card C) based on the signal which shows this distance. Note that a combination of the cassette shape detection sensor S and a control unit 110 described later is an example of a detection unit.

  For example, when the card cassette 22 is placed inside the housing 21 of the card cassette insertion slot 20, the card presence / absence detection sensor S4 is provided at a position facing the lower surface opening 25 of the cassette housing 23. Similarly to the cassette shape detection sensor S described above, the card presence / absence detection sensor S4 includes a light projecting unit and a light receiving unit. The light projecting unit of the card presence / absence detection sensor S4 projects light into the cassette housing 23 with the lower surface opening 25 interposed therebetween. At this time, when the card C is loaded in the cassette housing 23, the light projected by the light projecting portion of the card presence / absence detection sensor S4 is separated from the inside of the cassette housing 23 through the lower surface opening 25. Is reflected toward the card presence / absence detection sensor S4 side. The light receiving portion of the card presence / absence detection sensor S4 receives the light reflected by the surface of the card C. On the other hand, when the card C is not loaded in the cassette housing 23, the light projected by the light projecting unit of the card presence / absence detection sensor S4 is scattered, for example, in the air inside the cassette housing 23. As a result, the light receiving portion of the card presence / absence detection sensor S4 does not receive the light reflected on the cassette housing 23 side, or receives light having a lower intensity than the light reflected on the surface of the card C. . The card presence / absence detection sensor S4 outputs, for example, a detection value (a measurement value of the amount of received light) that can recognize the presence / absence of the card C to the control unit 110 described later. The controller 110 determines the presence / absence of the card C in the cassette housing 23 based on the detection value input from the card presence / absence detection sensor S4. Further, the card presence / absence detection sensor S4 may compare the measured amount of received light with a threshold value and output a binary signal indicating the presence / absence of the card C to the control unit 110.

  The image forming unit 30 forms an image on the card C conveyed by the card hopper unit. For example, the image forming unit 30 uses a plurality of colorants (for example, ink) such as yellow (Y), magenta (M), cyan (C), and black (K) based on information input from the control unit 110. An image is formed on the surface of the card C. The image forming unit 30 may form an image by a thermal transfer method, may form an image by an ink jet method, or may form an image by any method as long as an image can be formed. .

  Further, the image forming unit 30 forms an ultraviolet absorbing layer (UVL) on the surface of the card C on which images are formed with a plurality of colorants. Thereby, for example, the image forming unit 30 suppresses deterioration of the image formed on the surface of the card C due to sunlight, or suppresses deterioration due to ultraviolet irradiation by an overcoat unit described later. The image forming unit 30 transports the card C on which the ultraviolet absorbing layer is formed to the transport unit 40.

  For example, the transport unit 40 places the card C transported by the image forming unit 30 on an elevator, and transports the card C to the overcoat unit 50 without changing the orientation of the card C.

  The overcoat unit 50 thermally transfers the overcoat film to the card C transported by the transport unit 40 and forms a protective layer in which the resin is cured on the surface of the card C. The overcoat unit 50 conveys the card C on which the protective layer is formed to the stacker unit 60.

  The stacker unit 60 includes a plurality of card stacking units 61. The card stacking units 61 are provided in the same number as the number of card cassette insertion ports 20, for example. For example, the stacker unit 60 stacks the cards C transported by the overcoat unit 50 on the card stacking unit 61 in the transport order. Further, the stacker unit 60 may include, for example, a dedicated card stacking unit 61 that stacks the cards C that have been jammed in the transport unit 40 described above.

  Hereinafter, the control unit 110 will be described with reference to the drawings. FIG. 4 is a diagram illustrating an example of the configuration of the card issuing device 1 centering on the control unit 110 in the embodiment. In addition to the above-described configuration, the card issuing device 1 further includes an input unit 102, a display unit 104, an interface unit 106, a storage unit 120, and a power supply device 130. The card hopper unit 10, the image forming unit 30, the transport unit 40, the overcoat unit 50, the stacker unit 60, the input unit 102, the display unit 104, the interface unit 106, the control unit 110, the storage unit 120, and the power supply device 130 They are connected to each other by a bus IB.

  The input unit 102 is a user interface such as a switch, a keyboard, a mouse, a microphone, and a touch panel, for example. Note that when the display unit 104 is a touch panel, the input unit 102 may be a partial function of the display unit 104. The input unit 102 receives, for example, an input for designating a power stop request for stopping the power supply of the card issuing device 1 or a power start request for starting the power supply from an operator who operates the card issuing device 1. Further, the input unit 102 may receive an infrared ray irradiated by an infrared remote controller or the like and accept a power stop request or a power start request. The input unit 102 outputs a signal indicating the received request to the control unit 110 in response to receiving the power stop request or the power start request.

  Further, the input unit 102 may receive an input for designating a card issuance request for requesting the issuance of the card C from the above-described worker or the like. The input unit 102 outputs a signal indicating the accepted card issue request to the control unit 110.

  The display unit 104 includes a display device such as an LCD (Liquid Crystal Display) or an organic EL (Electroluminescence) display. The display unit 104 displays an image based on information output from the control unit 110.

  The interface unit 106 is an interface corresponding to, for example, USB (Universal Serial Bus) or Ethernet (registered trademark), and is connected to a network NW such as a LAN (Local Area Network) or a WAN (Wide Area Network). The control unit 110 communicates with the imaging devices 200-1 to 200-n that capture the driver's face image to be printed on the driver's license via the network NW connected to the interface unit 106. The imaging devices 200-1 to 200-n capture a face image of a person who obtains or updates a driver's license, and outputs the captured face image data to the control unit 110 via the network NW.

  The control unit 110 includes an acquisition unit 112, a storage control unit 114, a card issue control unit 116, and a power supply control unit 118. Part or all of the functional units of the control unit 110 described above is realized by a processor such as a CPU (Central Processing Unit) executing a program stored in the storage unit 120. For example, the program may be downloaded from an application server via the network NW, or a program stored in a portable storage medium such as an SD card may be installed in the card issuing device 1. Also, some or all of the functional units of the control unit 110 may be realized by hardware such as an LSI (Large Scale Integration), an ASIC (Application Specific Integrated Circuit), or an FPGA (Field-Programmable Gate Array).

The acquisition unit 112 realizes a function of acquiring detection values and signals from various sensors.
The acquisition unit 112 acquires a stop request signal indicating a power stop request or a start request signal indicating a power start request from the input unit 102. Further, the acquisition unit 112 may acquire a stop request signal or a start request signal from an external device via the network NW, or from an external device by wireless communication such as Bluetooth (registered trademark) by a wireless communication device (not shown). A stop request signal or a start request signal may be acquired.

  The acquisition unit 112 acquires detection values from the various sensors described above. Specifically, the acquisition unit 112 acquires a detection value capable of recognizing the shape of the card cassette 22 from each of the cassette shape detection sensors S, and obtains a detection value capable of recognizing the presence or absence of the card C from the card presence / absence detection sensor S4. get.

  The acquisition unit 112 acquires a issuance request signal indicating a card issuance request from the input unit 102. The acquisition unit 112 may acquire the issue request signal from an external device connected via the network NW. Further, when image data is output from any one or more of the imaging devices 200-1 to 200-n described above, the acquisition unit 112 may regard the card issuance request as the output of the image data.

  When the acquisition request is acquired by the acquisition unit 112, the storage control unit 114 restores the current use state of the card cassette 22 that is currently used when power supply is started again. Is stored in the nonvolatile storage unit 122 of the storage unit 120, which will be described later. Specifically, the storage control unit 114 uses information indicating the shape (type of card C) of the card cassette 22 inserted into the current card cassette insertion slot 20 as the cassette usage state save information, and the card cassette difference. The non-volatile storage unit 122 stores the identification information for identifying each of the slot 20 and the active information indicating whether or not the cassette is an object of card issuance (active cassette). For example, the identification information of the card cassette insertion slot 20 is a series of information allocated so as not to overlap with the identification information of other card cassette insertion slots 20. Hereinafter, this series of information will be described as an insertion port number.

  FIG. 5 is a diagram illustrating an example of cassette usage state save information stored in the nonvolatile storage unit 122. As shown in the drawing, information indicating the shape of the card cassette (card type) and active information are associated with the insertion slot number, which is identification information of the card cassette insertion slot 20. The item representing active information includes information “active” when the card C is currently inserted into the card cassette insertion slot 20 and the card C is being taken out or is about to be taken out. Is written and information “non-active” is written.

  When the issue request signal is acquired by the acquisition unit 112, the card issue control unit 116 controls the card hopper unit 10, the image forming unit 30, the transport unit 40, the overcoat unit 50, and the stacker unit 60 to obtain the acquisition unit. The cards C are issued in the order in which the issue request signals are acquired at 112. Specifically, the card issuance control unit 116 controls the card hopper unit 10 to take out the cards C one by one from the card cassette 22 inserted into the card cassette insertion slot 20, and the subsequent image forming unit 30. To transport. The card issuance control unit 116 controls, for example, the image forming unit 30 to preferentially handle an imaging device that outputs image data earliestly among the imaging devices 200-1 to 200-n, and outputs the image by this imaging device. An image based on the image data thus formed is formed on the card C, an ultraviolet absorbing layer is formed on the card C on which the image is formed, and then the card C is transported to the transport unit 40. Thereby, the card issuing device 1 forms images on the card C in the order in which the card issuing requests are received.

  Further, the card issue control unit 116 controls the transport unit 40 to transport the card C transported by the image forming unit 30 to the overcoat unit 50. The card issuance control unit 116 controls the overcoat unit 50 to thermally transfer the overcoat film to the card C conveyed by the conveyance unit 40, and after forming a protective layer on the surface of the card C, the card C is stacked. It is made to convey to the part 60. The card issuing control unit 116 controls the stacker unit 60 to stack the cards C transported by the overcoat unit 50 on the card stacking unit 61 in the transported order. Hereinafter, a combination of the card hopper unit 10, the image forming unit 30, the transport unit 40, the overcoat unit 50, and the stacker unit 60 will be referred to as a card issuing unit.

  When the acquisition request is acquired by the acquisition unit 112, the power control unit 118 controls the power supply device 130 to supply power to each functional unit. In addition, when the acquisition request is acquired by the acquisition unit 112, the power supply control unit 118 controls the power supply device 130 to stop the supply of power to each functional unit.

  The storage unit 120 includes, for example, a nonvolatile storage unit 122 and a volatile storage unit 124. The nonvolatile storage unit 122 is realized by a nonvolatile storage medium such as an SD card, a ROM (Read Only Memory), a flash memory, and an HDD (Hard Disk Drive), for example. The non-volatile storage unit 122 stores a program executed by the processor. The nonvolatile storage unit 122 stores cassette usage state save information.

  The volatile storage unit 124 is realized by a volatile storage medium such as a RAM (Random Access Memory) and a register. The volatile storage unit 124 temporarily stores the result processed by the processor. The volatile storage unit 124 temporarily stores image data that is referred to when an image is formed on the card C. For example, the volatile storage unit 124 temporarily stores the face image data output by the imaging devices 200-1 to 200-n via the network NW.

  The power supply device 130 is connected to a commercial power source via, for example, an outlet and a plug, and converts the power supplied by the commercial power source into a power in a format suitable for each functional unit. For example, the power supply device 130 converts AC power from a commercial power source into DC power and outputs it at a desired voltage. The power supply device 130 supplies the converted DC power to each functional unit via a power supply cable. Hereinafter, a state in which power is supplied to each function unit by the power supply device 130 (during power-on) is referred to as a power-on state, and a state in which power is not supplied to each function unit is referred to as a power-off state. It is assumed that a certain amount of power is supplied to the input unit 102 by a dedicated standby circuit even when the power is off, and inputs such as a constant power stop request, a power start request, and a card issue request are accepted.

  Hereinafter, the card issuing operation by the card issuing device 1 will be described. FIG. 6 is a diagram schematically showing how the card cassette 22 inserted into the plurality of card cassette insertion ports 20 is consumed. In the illustrated example, in order to simplify the description, the types of the card cassettes 22 are all assumed to be the same. The card issuing device 1 consumes the card C from the card cassette 22 according to a predetermined rule. For example, the card issuing device 1 consumes (issues) the cards C from the card cassette 22 of the same type in ascending order of the insertion slot number of the card cassette insertion slot 20. In the illustrated example, when the card cassette 22 with the slot number 1 becomes empty, the storage control unit 114 rewrites the active information with respect to the slot number 1 from “active” to “non-active”. The active information is rewritten from “non-active” to “active”. As a result, the card issuing control unit 116 changes the card cassette 22 from which the card C is to be taken out from the one with the insertion port number 1 to the one with the insertion port number 2, and the card cassette 22 with the insertion port number 2 is obtained. Card C is issued in order. For example, when a power stop request is input to the input unit 102 by a user such as an operator after issuing a certain amount of cards C, the power control unit 118 controls the power supply device 130 to turn off the power. To do. In such a case, for example, the following three usage states can be considered.

  FIG. 7 is a diagram illustrating an example of a scene in which the card cassette 22 is not replaced in the cassette usage state of FIG. In the illustrated example, the card cassette 22 with the slot number 1 that has become empty is not replaced with a new card cassette 22 loaded with the card C when the power is off. In such a case, when the card issuing device 1 returns from the power-off state to the power-on state, in the same type of card cassette 22, the card C is consumed in ascending order of the insertion number of the card cassette insertion port 20. In accordance with the rules described above, the card C issuance is started from the card cassette 22 with the slot number 2.

FIG. 8 is a diagram showing a conventional example of a scene in which the card cassette 22 is replaced in the cassette use state of FIG. In the illustrated example, when the power is off, the card cassette 22 with the slot number 1 that has become empty is replaced with a new card cassette 22 loaded with the card C. At this time, in the conventional example, since the usage state of the card cassette 22 is not saved before the power is turned off and the usage state of the card cassette 22 is reset, the card issuing device 1 follows the rules described above. When the power is turned off from the power off state, the card C is not issued from the card cassette 22 of the insertion port number 2 used before the power off state is entered, and the youngest number is obtained according to the above-mentioned rules. The card C was issued from the card cassette 22 of the insertion port number 1.
In such a usage pattern, the consumption cycle of the card cassette 22 inserted into the insertion number 1 having the smallest number tends to be short, and the consumption cycle of the card cassette 22 tends to become long as the insertion number increases. . Accordingly, in the card cassette 22 inserted into the card cassette insertion slot 20 having a large insertion slot number, when the card C is completely consumed without being consumed, the card cassette 22 is long in the card hopper unit 10. There is a high possibility of being present without being used for a period. As a result, when a plurality of card cassettes 22 having different production lots are used in the card issuing device 1, the image formed on the card C is uneven due to the difference between the production lots, or the card is jammed in the transport unit 40 or the like. Problems occur. In order to solve the above problem, it is necessary to adjust parameters related to image formation such as the conveyance speed of the card C and roller pressure during image formation for each production lot, and the adjustment load tends to increase.

On the other hand, according to the embodiment of the present invention, the above-described problems are solved. FIG. 9 is a diagram illustrating an example in the embodiment of the present invention in which the card cassette 22 is replaced in the cassette usage state of FIG. In the example of FIG. 9, as in the example of FIG. 8 described above, the card cassette 22 with the slot number 1 that has become empty is replaced with a new card cassette 22 loaded with the card C when the power is off. Yes. At this time, in the card issuing device 1 of the embodiment, the usage state of the card cassette 22 is stored before the power is turned off. In the period of transition from the power-off state to the power-on state, the type of the card cassette 22 is not changed, and the card issuing device 1 sequentially changes the cards C from the card cassette 22 that was used before the power-off state. Will be issued.
As a result, the card issuing device 1 can keep the consumption cycle of the card cassette 22 uniform, and can improve the operational efficiency of the card cassette 22. Further, since the card issuing device 1 issues cards C in order from one card cassette 22 even when using a plurality of card cassettes 22 with different production lots, a plurality of cards with different production lots are used. Opportunities for use across the cassette 22 can be reduced. As a result, the card issuing device 1 can reduce the adjustment load of parameters relating to image formation, and can improve the accuracy of the image formed on the card C.
Note that, as will be described later in the description of FIG. 16, if the type of any of the card cassettes 22 is changed during the transition from the power-off state to the power-on state, the card issuing device 1 determines the rules described above. Then, the card C is issued from the card cassette 22 of the insertion number 1 with the youngest number.

  Hereinafter, the processing content of the control part 110 is demonstrated with reference to a flowchart. FIG. 10 is a flowchart illustrating an example of a flow of processing executed by the control unit 110 in the embodiment. This flowchart is started, for example, when the card issuing device 1 is switched from the power-off state to the power-on state.

  First, the acquisition unit 112 acquires detection values from various sensors provided for each card cassette insertion slot 20 (step S100). Next, the card issuance control unit 116 specifies the usage state of the card cassette currently inserted into the card cassette insertion slot 20 based on the detection values of the various sensors acquired by the acquisition unit 112 (step S102). .

  Specifically, the card issuance control unit 116 determines whether or not the card cassette 22 is inserted for each card cassette insertion slot 20 based on the detection value of the cassette shape detection sensor S. For example, when the shape of the card cassette 22 is not detected by any of the cassette shape detection sensors S, the card issue control unit 116 inserts the card cassette 22 into the card cassette insertion slot 20 provided with the cassette shape detection sensor S. Judge that it is not. Further, the card issuing control unit 116 specifies the shape of the card cassette 22 for each card cassette insertion slot 20 into which the card cassette 22 is inserted. Further, the card issuing control unit 116 determines the presence / absence of the card C in the cassette housing 23 for each card cassette insertion slot 20 into which the card cassette 22 is inserted based on the detection value of the card presence / absence detection sensor S4. judge.

  Next, the storage control unit 114 determines whether or not the card cassette 22 is inserted, the shape of the card cassette 22, and the presence or absence of the card C in the card cassette 22 specified by the card issuance control unit 116. Corresponding to each insertion port number of the insertion port 20 is temporarily stored in the volatile storage unit 124 (step S104). Hereinafter, information that associates the presence / absence of insertion of the card cassette 22, the shape of the card cassette 22, and the presence / absence of the card C in the card cassette 22 for each insertion slot number of the card cassette insertion slot 20, This will be referred to as cassette usage state monitoring information. FIG. 11 is a diagram illustrating an example of cassette usage state monitoring information stored in the volatile storage unit 124.

  Next, the card issuance control unit 116 compares the cassette usage state monitoring information stored in the volatile storage unit 124 with the cassette usage state save information stored in the nonvolatile storage unit 122, and determines each insertion port. Whether the cassette shape associated with the number matches between both pieces of information, that is, whether the type of any of the card cassettes 22 has been changed during the transition from the power-off state to the power-on state. Determination is made (step S106).

  When the cassette shape associated with each insertion port number matches in the cassette usage status monitoring information and the cassette usage status save information, that is, in the period of transition from the power-off state to the power-on state, If the type has not been changed, the card issuing control unit 116 refers to the active information included in the cassette usage state save information and continuously sets the active cassette before the power is turned off (step S108). For example, the card issuance control unit 116 continuously sets the card cassette 22 having the insertion port number written as “active” as the issuance target of the card C in the cassette use state save information.

  On the other hand, when the cassette shape associated with each insertion port number does not match between the cassette usage status monitoring information and the cassette usage status save information, that is, during the transition from the power-off state to the power-on state, the card cassette When the type 22 is changed, the card issuing control unit 116 resets the active cassette according to a predetermined rule (step S110). The active cassette to be reset is, for example, the card cassette 22 installed in the card cassette insertion slot 20 having the youngest insertion slot number in the same type of card cassette 22.

  Next, the card issuance control unit 116 determines whether or not the issuance request signal has been acquired by the acquisition unit 112 (step S112). When the issuing request signal is acquired by the acquiring unit 112, the card issuing control unit 116 controls the card issuing unit to issue the card C (step S114).

  When the issue request signal is not acquired by the acquisition unit 112, or after the process of step S114, the card issue control unit 116 determines whether or not the remaining number of cards in the set card cassette 22 is zero. (Step S116). For example, the card issuance control unit 116 determines whether the remaining number of cards is zero based on the detection value of the card presence / absence detection sensor S4 acquired by the acquisition unit 112 during or after the process of step S114. Determine. If the remaining number of cards in the set card cassette 22 is not zero, the card issuance control unit 116 returns to the process of step S112 described above.

  On the other hand, when the remaining number of cards in the set card cassette 22 is zero, the card issuance control unit 116 refers to the cassette usage state monitoring information and the card cassette 22 of the same type as the set card cassette 22 is another It is determined whether or not it is inserted into the card cassette insertion slot 20 (step S118).

  If the same type of card cassette 22 is not inserted into the other card cassette insertion slot 20, the card issue control unit 116 outputs empty information indicating that the card C in the card cassette 22 is empty (step S124), the process of this flowchart is terminated. For example, the card issuance control unit 116 outputs this empty information to the display unit 104. As a result, the display unit 104 displays that the card C in the card cassette 22 is empty.

  On the other hand, when the same type of card cassette 22 is inserted into another card cassette insertion slot 20, the card issuance control unit 116 determines whether or not the remaining number of cards in the same type of card cassette 22 is zero. Is determined (step S120). When the remaining number of cards in the same type of card cassette 22 is zero, the card issuing control unit 116 performs the process of step S124 described above and ends the process of this flowchart.

  On the other hand, when the remaining number of cards in the same type of card cassette 22 is not zero, the storage control unit 114 changes the active information associated with the insertion slot number of the currently set active cassette from “active” to “ The information is rewritten to “non-active”, the active information associated with the slot number into which the same type of card cassette 22 is inserted is rewritten from “non-active” to “active”, and the process returns to step S112 described above. As a result, the card issuance control unit 116 resets the card cassette 22 having the slot number newly changed from “non-active” to “active” to the active cassette, and sequentially takes out the cards C from the active cassette and issues them. Let

  FIG. 12 is a flowchart showing a process to be performed by interruption while the process of the flowchart shown in FIG. 10 is being performed. The process of this flowchart is performed in parallel with the process of the flowchart shown in FIG. 10, for example, and is repeated at a predetermined cycle.

  First, the control unit 110 determines whether or not a stop request signal is acquired by the acquisition unit 112 (step S200). When the stop request signal is not acquired by the acquisition unit 112, the control unit 110 ends the process of this flowchart.

  On the other hand, when the stop request signal is acquired by the acquisition unit 112, the storage control unit 114 stores the cassette usage state save information in the nonvolatile storage unit 122 (step S202). Next, the power supply control unit 118 controls the power supply device 130 to turn off the power supply, and stops the card issuing process (step S204). Thereby, the process of this flowchart is complete | finished.

  Hereinafter, as an application example of the present embodiment, a case where the number of card cassette insertion slots 20 is five and the shape of the card cassette to be used (the type of card C) is three patterns will be described.

  FIG. 13 is a diagram schematically showing the usage state of the card cassette 22. In the example of FIG. 13, the slot numbers 1 to 5 are, in order, a type A card cassette 22, a type B card cassette 22, a type C card cassette 22, a type A card cassette 22, and a type C card cassette. 22 is inserted. The card C in the card cassette 22 with the insertion slot number 1 is all consumed, and the activity has changed to the insertion slot number 4 into which the same type of card cassette 22 has been inserted. The card C is consumed to some extent. Further, the card C in the card cassette 22 with the slot number 2 is somewhat consumed. Further, all the cards C in the card cassette 22 of the insertion slot number 3 are consumed, and the activity is changed to the insertion slot number 5 into which the same type of card cassette 22 is inserted. The card C in the cassette 22 is consumed to some extent.

  When a stop request signal is acquired by the acquisition unit 112 when the card cassette 22 is used, the storage control unit 114 stores the cassette usage state save information as illustrated in FIG. 14 in the nonvolatile storage unit 122. . FIG. 14 is a diagram illustrating an example of cassette usage state save information stored when the card cassette 22 of FIG. 13 is in use.

  When the power supply is turned off when the card cassette 22 shown in FIG. 13 is used and then turned on, for example, the following usage condition of the card cassette 22 exists.

  FIG. 15 is a diagram illustrating an example of the usage state of the card cassette 22 when the power is turned off when the card cassette 22 of FIG. 13 is used and then the power is turned on. In the example of FIG. 15, the empty card cassettes 22 with the insertion numbers 1 and 3 are the same type (types A and C) as the card cassette 22 used before the power is turned off. A cassette 22 is inserted. In addition, the same card cassette 22 as that before the power-off state is inserted into the slot numbers 2, 4, and 5.

  In such a case, as shown in FIG. 14, the control unit 110 determines that the current insertion port number and the card cassette 22 correspond to the correspondence between the insertion port number and the shape of the card cassette 22 before the power is turned off. Therefore, the card C can be continuously issued from the card cassettes 22 having the slot numbers 2, 4, and 5 that were activated before the power was turned off.

FIG. 16 is a diagram illustrating another example of the usage state of the card cassette 22 when the power is turned off when the card cassette 22 of FIG. 13 is used and then the power is turned on. In the example of FIG. 16, the card cassette 22 of the same type (type A) as the card cassette 22 used before the power is turned off is inserted into the empty card cassette 22 of the slot number 1. However, a card cassette 22 of a different type (type A) from the card cassette 22 used before the power is turned off is inserted into the empty card cassette 22 of the slot number 3. . Further, the same card cassette 22 as that before the power-off state is inserted into the slot numbers 2 and 5, but the card cassette 22 with the slot number 4 before the power-off state is inserted. A card cassette 22 of a different type (type C) from the card cassette 22 used in the above is inserted.
In this way, during the transition from the power-off state to the power-on state, the card cassette 22 loaded with a different type of card C from FIG. 13 may be inserted into the position of the card cassette 22 in FIG. That is, the type of the card cassette 22 may be changed during the transition from the power-off state to the power-on state.

  In such a case, as shown in FIG. 14, the control unit 110 determines that the current insertion port number and the card cassette 22 correspond to the correspondence between the insertion port number and the shape of the card cassette 22 before the power is turned off. Since the correspondence relationship with the shape of the card cassette 22 of the same type does not match, according to the rule described above that the card C is consumed in ascending order of the insertion number of the card cassette insertion slot 20, The card number 22 with the youngest number 1 is activated, the card number 22 with the number 2 is the youngest among types B, and the number 2 is the youngest among types C. The card cassette 22 with the slot number 4 is activated. As a result, the control unit 110 issues the card C from the card cassette 22 of the insertion slot numbers 1, 2, and 4 that has been activated.

  According to the card issuing device 1 in the embodiment described above, the card is inserted into each of the plurality of card cassette insertion ports 20 into which the card cassette 22 into which the card C is loaded is mounted, and the plurality of card cassette insertion ports 20. A cassette shape detection sensor S for detecting the shape of the card cassette 22, a card issuing unit for taking out and issuing the card C from the card cassette 22 by the power supplied from the power supply device 130, a stop request signal and a start request signal The acquisition unit 112 that acquires the card, the type of the card cassette specified by the detection value of the cassette shape detection sensor S when the acquisition unit 112 acquires the stop request signal, and the active cassette from which the card issuing unit has taken out the card And the cassette usage state set including the slot number of the card cassette slot 20 with the Storage control unit 114 that stores the information in the nonvolatile storage unit 122, and the type of card cassette specified by the detection value of the cassette shape detection sensor S when the acquisition request is acquired by the acquisition unit 112, and the nonvolatile When the type of the card cassette 22 included in the cassette usage state save information stored in the storage unit 122 is compared, and the type of the card cassette 22 mounted in each of the plurality of card cassette insertion ports 20 has not been changed. Card issuing control for resetting the active cassette according to a predetermined rule when the type of any one of the card cassettes 22 mounted in the plurality of card cassette insertion ports 20 is changed without changing the active cassette Unit 116, during the transition period from the power-off state to the power-on state. Thus, even if the type of the card cassette 22 is not changed and the power is turned off, the card C can be continuously issued from the card cassette 22 that has been activated before the power is turned off. . As a result, the card issuing device 1 can reduce the remaining use of the card cassette 22 in which the card C remains, and can improve the operation efficiency of the card cassette 22.

  Further, according to the card issuing device 1 in the embodiment, the remaining usage of the card cassette 22 can be reduced by storing the cassette usage state save information in the nonvolatile storage unit 122 even when the power is turned off. Can do. As a result, the user can easily perform inventory management such as checking the remaining number of card cassettes 22 and reducing the storage capacity of the card cassettes 22.

  Moreover, according to the card issuing apparatus 1 in the embodiment, even when the power is turned off, the cassette usage state save information is stored in the nonvolatile storage unit 122, thereby making a transition from the power off state to the power on state. If the type of one of the card cassettes 22 has been changed during the period, for example, in the same type of card cassette 22, the card C is consumed in ascending order of the insertion number of the card cassette insertion slot 20. Can continue. For this reason, the opportunity to use simultaneously the card | curd C from which a production lot mutually differs can be reduced.

For example, even the same type of card C may be sent from a different manufacturer for each cassette, and in this case, the delicate thickness of the card C, the roughness of the card surface, and the like may be different. Since the card issuing device 1 performs fine adjustment according to this difference, if a cassette loaded with a card C sent from a different manufacturer is set as an active cassette by mistake, the fine adjustment load tends to increase. There is.
In contrast, the card issuing device 1 according to the embodiment alternately stores cards C having different production lots by storing the cassette usage state save information in the nonvolatile storage unit 122 even when the power is turned off. Therefore, the adjustment load related to image formation can be reduced, and the accuracy of the image formed on the card C can be improved.

  Further, according to the card issuing device 1 in the embodiment, since only the minimum information, that is, the cassette usage state save information is stored in the volatile storage unit 124 that stores the program referred to by the processor, the volatile storage unit 124 The amount of rewritten data can be reduced. As a result, the card issuing device 1 can suppress the deterioration of the volatile storage unit 124. Further, the card issuing device 1 can reduce the storage capacity of the volatile storage unit 124.

Hereinafter, other embodiments will be described.
In the embodiment described above, the stacker unit 60 may switch the card stacking unit 61 in conjunction with the imaging devices 200-1 to 200-n under the control of the card issue control unit 116. For example, the stacker unit 60 accumulates the cards C on which images are formed based on the image data input from the imaging device 200-1 in the card stacking unit 61a, and based on the image data input from the imaging device 200-2. Then, the card C on which the image is formed is accumulated in the card accumulation unit 61b.

  According to at least one embodiment described above, a plurality of card cassette insertion slots 20 into which a card cassette 22 into which a card C is loaded is loaded, and a card loaded into each of the plurality of card cassette insertion slots 20. The cassette shape detection sensor S for detecting the shape of the cassette 22, the card issuing unit for taking out and issuing the card C from the card cassette 22 by the power supplied from the power supply device 130, and the stop request signal and the start request signal are acquired. When the acquisition request is acquired by the acquisition unit 112 and the acquisition unit 112, the type of the card cassette specified by the detection value of the cassette shape detection sensor S and the active cassette from which the card issuing unit has taken out the card are mounted. Cassette usage state save information including the inserted card cassette insertion slot number 20 Is stored in the non-volatile storage unit 122, and when the start request signal is acquired by the acquisition unit 112, the type of the card cassette specified by the detection value of the cassette shape detection sensor S, and the non-volatile storage unit Compared with the type of card cassette 22 included in the cassette usage state save information stored in 122, the type of card cassette 22 installed in each of the plurality of card cassette insertion ports 20 is not changed. A card issue control unit 116 that resets the active cassette according to a predetermined rule when the type of any one of the card cassettes 22 mounted in the plurality of card cassette insertion ports 20 is changed without changing the cassette. In the period of transition from the power-off state to the power-on state, If the type of Dokasetto 22 has not changed, even when the power-off state, subsequently it is possible to issue a card C from the card cassette 22 has been activated before the power-off state. As a result, the card issuing device 1 can reduce the remaining use of the card cassette 22 in which the card C remains, and can improve the operation efficiency of the card cassette 22.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 ... Card issuing apparatus, 10 ... Card hopper part, 20 ... Card cassette insertion port, 22 ... Card cassette, 30 ... Image formation part, 40 ... Conveyance part, 50 ... Overcoat part, 60 ... Stacker part, 102 ... Input 104, display unit, 106 ... interface unit, 110 ... control unit, 112 ... acquisition unit, 114 ... storage control unit, 116 ... card issuance control unit, 118 ... power supply control unit, 120 ... storage unit, 122 ... non-volatile Storage unit 124 ... Volatile storage unit 130 ... Power supply device S1, S2, S3 ... Cassette shape detection sensor S4 ... Card presence / absence detection sensor C ... Card

Claims (6)

A plurality of mounting portions in which a card cassette into which a card is loaded is mounted;
A detection unit for detecting the type of the card cassette mounted in each of the plurality of mounting units;
A card issuing unit for taking out and issuing the card from the card cassette by power supplied by a power source;
An acquisition unit for acquiring a stop request signal for stopping power supply from the power source and a start request signal for starting power supply from the power source;
When the acquisition request is acquired by the acquisition unit, the type of the card cassette detected by the detection unit and the information of the active cassette from which the card issuing unit has removed the card are stored in a nonvolatile storage unit A storage control unit to be stored in
When the acquisition request signal is acquired by the acquisition unit, the type of the card cassette detected by the detection unit is compared with the type of the card cassette stored in the nonvolatile storage unit, A card issuance control unit that does not change the active cassette when the type of the card cassette mounted in the mounting unit is not changed;
A card issuing device comprising: The card issue control unit
When the type of any of the card cassettes mounted in the plurality of mounting units has been changed, the active cassette is reset according to a predetermined rule.
The card issuing device according to claim 1. The card issuing control unit sets another cassette loaded with the same type of cassette as the active cassette when the number of cards loaded in the active cassette becomes zero during power-on.
The card issuing device according to claim 1 or 2. The storage control unit stores and manages information on the active cassette during power-on in a volatile storage unit,
The card issuing device according to any one of claims 1 to 3. The card issuing control unit outputs empty information indicating that there is no remaining number of cards when there is no remaining number of cards loaded in all the card cassettes to be issued by the card issuing unit.
The card issuing device according to any one of claims 1 to 4. When the serial number is assigned to the same type of card cassette, the predetermined rule is to reset the card cassette having the lowest serial number to the active cassette in the same type of card cassette.
The card issuing device according to any one of claims 2 to 5.

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