RU2791060C1 - Media storage device and method of media storage control - Google Patents

Abstract

FIELD: terminal that allows the insertion and removal of media.

SUBSTANCE: effect is achieved due to the fact that the control unit is configured to control by transportation so that the media identified as a rejected medium in the identification unit is transported to the second transit cassette and the control unit is configured to control by transportation so that the medium placed in the second pass-through cassette is transported to the identification unit, wherein the good medium identified in the identification unit is transported to the reuse cassette, and the rejected medium identified in the identification unit is transported to the first transit cassette.

EFFECT: increased accuracy of banknote identification.

9 cl, 9 dwg

Description

FIELD OF TECHNOLOGY TO WHICH THE INVENTION RELATES

The present disclosure relates to a media storage device and a method for controlling a media storage device.

BACKGROUND OF THE INVENTION

In general, an ATM is an automated terminal that allows deposits and withdrawals of media such as cash or checks, regardless of time, through the use of a bank card or savings book.

Such an ATM may have a media storage box in which media such as cash or checks can be stored and an appropriate amount of media can be stored in the media storage box. The media stored in the media storage box can be removed from the media storage box at the customer's request for removal, and new media can be brought into the media storage box at the customer's deposit request. In this regard, it is necessary to maintain the proper amount of funds stored in the media storage box in preparation for the customer's deposit or withdrawal request, and it is also necessary to manage and control whether the proper amount of media is stored in the media storage box in real time.

However, when the management company for replenishing the ATM with carriers is far away from the ATM, it is not easy for the management company to manage the amount of media in the ATM in real time.

For example, if there are not enough banknotes of a certain type in the ATM, the ATM can be replenished with banknotes of a certain type through a client's deposit until an employee of the management company replenishes the machine with banknotes of a certain type. Additionally, if there are enough banknotes of a certain type in the ATM, the banknotes of a certain type can be spent in the ATM by withdrawal by the customer before an employee of the management company replenishes the machine with banknotes of a different type.

Meanwhile, the conventional media storage apparatus is problematic in that it is not possible to selectively take only a certain type of banknotes to be replenished from the transfer cassette among various types of banknotes, and selectively take a desired number of banknotes to be replenished from the transfer cassette. Therefore, there is a need for a media storage device capable of replenishing the machine by withdrawing a desired note type and a required number of notes from a transfer cassette in which different types of banknotes are stored and transferring an unwanted note type back to the transfer cassette.

SUMMARY OF THE INVENTION

In view of the foregoing, the present disclosure provides a media storage device and a method for operating a media storage device that is capable of replenishing or returning media in a shortcut by installing a first transit cassette and a second transit cassette in the front and rear portion of the safe.

According to a first aspect of the present disclosure, a media storage device is provided, including: a safe having a first replenishment and return entry in a front portion to which a first transit cassette is selectively connected, and a second replenishment and return entry in a rear portion. , to which the second transit cassette is selectively connected; an identification unit for identifying whether the medium is a normal medium or a rejected medium; a reuse cassette configured to receive a medium recognized as a normal medium; a transport path configured to transport the media between the first replenishment and return inlet, the second replenishment and return inlet, the identification unit, and the reuse cassette; and a control unit configured to be transport-controlled such that the medium placed in the first transit cassette is transported to the identification unit, and the medium identified as a normal medium in the identification unit is transported to the reuse cassette.

The control unit may be configured to control by transport such that a medium identified as a reject medium in the identification unit is transported to a second transit cassette.

The control unit may be configured to be controlled by transport such that the media placed in the second transit cassette is transported to the identification unit, the normal media identified in the identification unit is transported to the reuse cassette, and the reject media identified in the identification unit is transported into the first transit cassette.

The media storage device may further include: a reject cassette configured to accommodate a rejected media, wherein the control unit controls the transport path so that the media placed in the reuse cassette is transported to the identification unit, the media identified as normal media in the identification unit , is transported to the first transit cassette, and the media identified as a reject media in the identification unit is transported to the reject cassette.

The transport path may include: an upper transport path configured to provide a transport path for the medium transported to the identification unit; a lower conveyance path connected to the upper conveyance path to form a closed loop; a second transport path branch providing a media transfer path between the lower transport path and the reuse cassette; a third branch transport path providing a carrier path between the lower transport path and the reject cassette; a fourth branch transport path providing a carrier path between an inlet and a connection point of the front side of the upper transport path and the lower transport path; and a fifth branch path providing a carrier path between the second inlet and the connection point of the rear side of the upper path and the lower path.

The control unit may be configured to control the fourth branch of the transport path and the upper transport path so that the carrier placed in the first transit cassette is transported to the identification unit, and control the upper transport path, the lower transport path and the second branch of the transport path so that the carrier , identified as a normal medium in the identification unit, is transported to the reuse cassette.

The control unit may be configured to control the upper transport path and the fifth branch of the transport path such that a medium identified as a reject medium in the identification unit is transported to the second transit cassette.

The control unit may be configured to control the first branch of the transport path and the upper transport path so that the carrier placed in the second transit cassette is transported to the identification unit, control the upper transport path, the lower transport path and the second branch of the transport path so that the carrier, identified as a normal medium in the identification block is transported to the reuse cassette, and controlling the fourth branch transport path and the upper transport path so that the medium identified as a reject medium in the identification block is transported to the first transit cassette.

The control unit may be configured to control the second branch of the transport path, the lower transport path and the upper transport path so that the carrier placed in the reuse cassette is transported to the identification unit, control the upper transport path and the fourth branch of the transport path so that the carrier, identified as a normal medium in the identification unit is transported to the first transit cassette, and controlling the upper transport path and the third branch of the transport path so that the medium identified as a reject note in the identification unit is transported to the reject cassette.

The reject cassette may be located in the bottom and front portion of the safe to be adjacent to the first transit cassette.

According to a second aspect of the present disclosure, there is provided a method for operating a media storage device in which a first pass-through cassette and a second pass-through cassette, respectively, are connected to a front portion and a rear portion of a safe, the method including: a media receiving step including receiving a media from a first transit cassette and transporting the carrier to the identification unit; a primary media identification step including identifying whether the media transported to the identification unit is a normal media or a reject media; a step of initially replenishing the medium, including transporting the medium, identified as a normal medium in the step of primary identification of the medium, to the reuse cassette to replenish the medium therein; and a temporary storage step including transporting the media identified as a rejected medium in the primary media identification step to a second transit cassette to temporarily place the media therein.

The method may further include the step of transporting the medium temporarily placed in the second transit cassette to the identification unit; a secondary media identification step including identifying whether the media transported to the identification unit is a normal media or a reject media; a medium secondary replenishment step including transporting the medium identified as a normal medium in the secondary medium identification step to a reuse cassette to replenish the medium therein; and a reject media handling step of transporting the media identified as reject media in the secondary media identification step to the first transit cassette.

According to embodiments of the present disclosure, it is capable of replenishing or returning media via the shortest path by installing a first transit cassette and a second transit cassette in the front and rear portion of the safe.

Additionally, according to embodiments of the present disclosure, a medium identified as a normal banknote from the funds transferred from the first transit cassette is placed in a reuse cassette, and a medium identified as a rejected banknote is temporarily placed in a second transit cassette, and then transported back to the first transit cassette.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is a diagram schematically illustrating the configuration of a media storage device according to the first embodiment of the present disclosure.

2 is a state diagram illustrating the path along which the media from the first transit cassette is transported through the identification unit to the reuse unit in the media storage device according to the first embodiment of the present disclosure.

3 is a state diagram illustrating the path along which the media from the first hop cassette is transported through the identification unit to the second hop cassette, in the media storage device according to the first embodiment of the present disclosure.

4 is a state diagram illustrating the path along which the media from the second transit cassette is transported through the identification unit to the reuse cassette in the media storage device according to the first embodiment of the present disclosure.

5 is a state diagram illustrating the path along which the media from the second hop cassette is transported through the identification unit to the first hop cassette, in the media storage device according to the first embodiment of the present disclosure.

6 is a state diagram illustrating the path along which the media from the reuse cassette is transported through the identification unit to the first transit cassette, in the media storage device according to the first embodiment of the present disclosure.

7 is a state diagram illustrating the path along which the media from the reuse cassette is transported through the identification unit to the reject cassette in the media storage device according to the first embodiment of the present disclosure.

Fig. 8 is a flowchart schematically illustrating a method for controlling a media storage device in case of media replenishment through a first transit cassette, according to a first embodiment of the present disclosure.

Fig. 9 is a flowchart schematically illustrating a method for controlling a media storage device in case of media return via a first transit cassette, according to a first embodiment of the present disclosure.

DETAILED DESCRIPTION

Hereinafter, the configurations and operation of the embodiments will be described in detail with reference to the accompanying drawings. The following description is one of the various patentable aspects of the disclosure and may form part of a detailed description of the disclosure.

When describing embodiments of the present disclosure, a detailed description of well-known functions or configurations will be omitted if it is determined that a detailed description of well-known functions or configurations may unnecessarily obscure the essence of the present disclosure.

The disclosure may be varied in various ways and may include various embodiments. Specific embodiments will be illustrated in the drawings by way of example and described in the detailed description of the embodiments. However, it should be understood that they are not intended to limit the disclosure to specific embodiments, but rather to cover all modifications, similarities, and alternatives that are included within the spirit and scope of the disclosure.

The terms used here, including serial numbers such as "first" and "second", may be used to describe and not limit the various components. These terms simply distinguish the components from each other.

When it is said that a component is "coupled" or "associated" with another component, it is to be understood that the first component may be directly coupled or coupled to a subsequent component, or a third component may be inserted between two components.

Specific terms in this disclosure are used simply to describe specific embodiments without limiting the present disclosure. An expression used in the singular includes the plural expression, unless it has a clearly different meaning in the context.

Hereinafter, the specific configuration of the media storage device 10 according to the first embodiment of the present disclosure will be described with reference to the accompanying drawings.

As shown in FIGS. 1-7, the media storage device 10 according to the first embodiment of the present disclosure can place media in the reuse cassette 500 in the media storage device 10 through the first transit cassette 810 and the second transit cassette 820 connected to the front portion and the rear portion. of the safe 11 and can return the media placed in the reuse cassette 500 through the first transit cassette 810 connected to the front portion of the safe 11.

The media storage device 10 may include a safe 11, a temporary holding unit 100, a receiving unit 200, an identification unit 300, a transport path, a reuse cassette 500, a scrap cassette 600, and a control unit 700.

The safe 11 may provide storage space for placed media therein. In this embodiment, the safe 11 is not limited to media storage space, but the safe 11 may include a frame/case that forms the entire exterior of the media storage device 10.

The receiving unit 200 may be provided in the upper front portion of the safe 11. Here, the front portion of the safe 11 may be understood as the side (right side of the figure) where the receiving unit 200 is located through which the customer makes deposits and withdrawals. A replenishment and return inlet 12a, to which the first transit cassette 810 may be connected, may be provided on the underside of the front portion of the safe 11. A replenishment and return inlet 12b, to which the second transit cassette 820 may be connected, may be provided on the bottom side of the rear portion of the safe 11, and the temporary holding unit 100 may be provided in the upper rear portion.

The temporary holding unit 100 may be used to temporarily allocate funds. The temporary holding unit 100 may be connected to the upper transport path 410 via the first transport path branch 431, which will be described later.

The identifying unit 300 can recognize the media as either normal media or rejected media by identifying whether the media moving along the transportation path is normal or abnormal. In this specification, media can be divided into normal media and reject media. The normal medium is a replenishment medium to be replenished into the media storage device 10 or a return medium to be returned from the media storage device 10 to the transfer cassette 800. Additionally, the rejected medium may be an abnormal medium and may be a damaged or counterfeit note or be paper other than banknotes. For example, the rejected medium may be a torn note, a counterfeit note, or a receipt. In addition, the rejected media may include normal media that is not damaged in the first transit cassette 810, but is damaged when moved along the transport path, and normal media that is not damaged when it is transferred to the reuse cassette 500, but is damaged when moved. along the transportation path after being transferred from the reuse cassette 500.

The receiving unit 200 may provide a space in which the media deposited by the client is transferred and may provide a space from which the media to be removed by the client is taken. The receiving unit 200 may be connected to the first branch 431 of the transport path via the sixth branch 436 of the transport path, which will be described later. When the customer inserts the media, the receiving unit 200 may transmit the deposited media through the sixth branch 436 of the transport path, the first branch 431 of the transport path, and the upper path 410 of the transport to the identification unit 300 . In addition, the receiving unit 200 may be connected via a seventh transport path branch 437 to a front connection point at which the upper transport path 410 and the lower transport path 420 are connected.

The reuse cassette 500 can accommodate the media. the media placed in the reuse cassette 500 can be ejected through the first transit cassette 810 when a return is required, and the media can be ejected through the receiving unit 200 when a customer requests removal. the medium entered into the receiving unit 200 at the customer's deposit request can be transferred to the reuse cassette 500 via the identification unit 300 .

A plurality of reusable cassettes 500 may be provided. For example, the reuse cassette 500 may include a first reuse cassette 510, a second reuse cassette 520, a third reuse cassette 530, and a fourth reuse cassette 540, which are sequentially positioned towards the front portion of the safe 11 (where the reception unit 200 is located). ). In this case, the first recycling cassette 510 may be located on the rear side of the safe 11 relative to the branch point of the front side of the upper transport path 410 and the lower transport path 420, and the second recycling cassette 520, the third recycling cassette 530, and the fourth recycling cassette 540 uses are located on the front side of the safe 11 relative to the branch point of the front side of the upper transport path 410 and the lower transport path 420. In this case, when the medium is deposited (replenished) through the first transit cassette 810, the medium identified as a normal medium by the identification unit 300 may be preferably replenished into the first cyclic cassette 510 bypassing the remaining cyclic cassettes 520, 530, and 540. Accordingly, when the media temporarily placed in the second transit cassette 820 is transported through the identification unit 300 to the recycling cassette 500, the media identified by the identification unit 300 as normal media can be transported to the remaining recycling cassettes 520, 530, and 540, except for the first cassette 510 reuse (see figure 4).

When media is deposited (replenished) through the first transit cassette 810, if the first reuse cassette 510 is not replenished, preferably compared to the rest of the reuse cassettes 520, 530, and 540, that is, if the first reuse cassette 510 is replenished partially like the rest of the cassettes 520 , 530 and 540 reuse, when the media temporarily placed in the second transit cassette 820 is transported through the identification block 300 to the reuse cassette 500, as shown in Fig.4, a collision may occur between the media transported from the second transit cassette 820 to the block 300 identification, and a medium conveyed through the identification unit 300 to the first cassette 510 reuse. Accordingly, in the present embodiment, when a medium is deposited (replenished) through the first transit cassette 810, the medium identified as a normal medium by the identification unit 300 is replenished preferably into the first reuse cassette 510 bypassing the rest of the reuse cassettes 520, 530, and 540.

A sensor (not shown) may be provided in the recycling cassette 500 to maintain the correct amount of media according to the type of media in preparation for a customer's deposit or withdrawal request. Such a sensor can determine whether an appropriate amount of media is placed in the recycling cassette 500, and can inform the operating company of the media storage device 10 whether there are enough media in the recycling cassette 500.

The reject cassette 600 can accommodate a damaged medium (eg, a rejected note). The scrap cassette 600 may be located in the lower front portion of the safe 11 to be located adjacent to the first transit cassette 810. Since the reject cassette 600 is located adjacent to the first transit cassette 810, media can be quickly moved between the reject cassette 600 and the first transit cassette 810. For example, in the event that a medium that is being transported from the reuse cassette 500 to the first transit cassette 810 is damaged during transmission and is identified as a rejected medium in the identification unit 300, the rejected medium may be placed in the reject cassette 600 .

The transport path may transport media between the temporary hold unit 100, the identification unit 300, the receive unit 200, the reuse cassette 500, the scrap cassette 600, the first transit cassette 810, and the second transit cassette 820.

Such a conveyance path may include a drive roller, a driven roller, a switching gate, and the like. to transfer funds. Additionally, the conveyance path may be driven by a motor (not shown) and may be controlled by the control unit 700. The transportation path may include an upper transportation path 410, a lower transportation path 420, a first transportation path branch 431, a transportation path second branch 432, a transportation path third branch 433, a transportation path fourth branch 434, a transportation path fifth branch 435, a transportation path sixth branch 435 transportation and the seventh branch 437 of the transportation route.

The upper transport path 410 may provide a transport path for funds that enter/exit to/from identification unit 300. The upper transport path 410 may be connected to the lower transport path 420 to form a closed loop. An upper transport path 410 may be provided above a lower transport path 420. The first branch 431 of the transportation path may branch off from the upper path 410 of the transportation. The upper transport path 410 may transmit media transported from the temporary holding unit 100 or the receiving unit 200 through the identification unit 300 to the lower transport path 420, or may transmit media exiting the identification unit 300 to the temporary holding unit 100, the receiving unit 200, or lower path 420 transportation.

The lower transport path 420 may be connected to the upper transport path 410 to form a closed loop. The second branch 432 of the transport path may branch off from the lower path 420 of the transport. On the lower transport path 420, a branch point for the reuse cassette 500 and a branch point for the reject cassette 600 may be sequentially located towards the front of the safe 11. A switching gate may be provided at each branch point of the lower transport path 420 to operate under the control of the unit 700 controls. The lower transport path 420 may transport media transported from the upper transport path 410 to the second transfer cassette 820, the recycling cassette 500, or the scrap cassette 600 by adjusting the switching gate under the control of the control unit 700, or may transport media transported from the second transit cassette 820 and the reuse cassette 500, to the upper transport path 410.

The first branch 431 of the transport path may branch from the upper path 410 of the transport to ensure the movement of the carrier between the upper path 410 of the transport and block 100 temporary hold. The first branch 431 of the transport path may branch upward from the upper path 410 of the transport. The sixth branch 436 of the transportation path may branch off from the first branch 431 of the transportation path. A switching gate operated by the control unit 700 may be provided at a branch point of the first branch 431 of the transport path from which the sixth branch 436 of the transport path branches off.

The second branch 432 of the transport path may branch off from the lower path 420 to provide a carrier path between the lower path 420 and the cassette 500 reuse. The second branches of the transport paths 432 may branch from the lower transport path 420 down towards the front portion of the safe 11.

The third branch 433 of the transport path may branch from the connection point between the upper path 410 transport and the lower path 420 transport. The third branch 433 of the transport path may branch from the lower transport path 420 down toward the rear portion of the safe 11. The third branch 433 of the transport path may provide a media path between the upper transport path 410 and the reject cassette 600, or may provide a media path between the bottom path 420 transport and cassette 600 rejects by adjusting the switching gate under the control of the block 700 control.

The fourth branch 434 of the transport path may provide a carrier path between the connection point of the front side of the upper transport path 410 and the lower transport path 420 and the input 12 for replenishment and return. For example, along the fourth branch 434 of the transport path, the media transported from the first transit cassette 810 may be transported to the upper transport path 410, or the medium transported from the upper transport path 410 may be transported to the first transit cassette 810.

Fifth branch 435 of the transport path may provide a carrier path between the connection point of the rear side of the upper transport path 410 and the lower transport path 420 and the replenishment and return inlet 12. For example, along the fifth branch 435 of the transport path, the media transported from the second transit cassette 820 may be transported to the upper transport path 410, or the medium transported from the upper transport path 410 may be transported to the second transit cassette 820.

The sixth branch 436 of the transport path may branch off from the first branch 431 of the transport path for connection with the receiving unit 200 . The sixth branch 436 of the transport path may provide a media movement path between the reception unit 200 and the temporary holding unit 100, or may provide a media movement path between the reception unit 200 and the upper transport path 410 by adjusting the switching gate under the control of the control unit 700.

A seventh branch 437 of the transport path may branch off from a connection point between the upper transport path 410 and the lower transport path 420 to be connected to the receiving unit 200 . The medium transported from the receiving unit 200 can be transported to the lower transport path 420 along the seventh transport path branch 437 by adjusting the switching gate under the control of the control unit 700.

Switching gates may be provided at branch points of the upper conveyance path 410, the lower conveyance path 420, the first conveyance path branch 431, the second conveyance path branch 432, the third conveyance path branch 433, the fourth conveyance path branch 434, the fifth conveyance path branch 435, the sixth branch 436 of the transport path and the seventh branch 437 of the transport path for switching the transport path of the medium. The switching gate can change its position by being rotated to selectively determine the carrier moving path under the control of the control unit 700 .

The control unit 700 may control the transport path such that, among the media transported through the first transit cassette 810, normal media is transported to the reuse cassette 500, and rejected media is temporarily placed in the second transit cassette 820 to be transported back to the first transit cassette 810 Additionally, the control unit 700 can control the transport path such that among the means placed in the recycling cassette 500, the normal media is transported to the first transit cassette 810 and the rejected media is transported to the reject cassette 600. The control unit 700 may be implemented as a computing device including a microprocessor, a measurement device such as a sensor, and a memory. Since the implementation method is obvious to those skilled in the art, its detailed description will be omitted. Next, the control method of the control unit 700 will be described in detail.

Specifically, referring to FIGS. 2-3, the control unit 700 may sequentially control the fourth transport path leg 434 and the upper transport path 410 to transfer the medium transported from the first transit cassette 810 to the identification unit 300. Additionally, the control unit 700 may control the transport path for transferring media to different locations according to the types of media identified in the identification unit 300 .

For example, as shown in FIG. 2, the control unit 700 can control the upper transport path 410, the lower transport path 420, and the second branch transport path 432 such that the normal media identified in the identification unit 300 is transported to the reuse cassette 500. In this case, the control unit 700 may control the transfer of the medium to the first reuse cassette 510, preferably bypassing the remaining reuse cassettes 520, 530, and 540 of the plurality of reuse cassettes 500.

Further, as shown in FIG. 3, the control unit 700 may sequentially control the upper transport path 410 and the fifth branch 435 of the transport path so that the rejected medium identified in the identification unit 300 is transported to the second transit cassette 820. In other words, in the case when the media is damaged during transmission and is identified as a rejected media in the identification unit 300, the control unit 700 may sequentially control the upper transport path 410, the lower transport path 420, and the fifth branch 435 transport path to transfer the rejected medium to the second transit cassette 820.

Meanwhile, referring to FIGS. 4 and 5, the control unit 700 can sequentially control the fifth branch 435 of the transport path and the upper transport path 410 to transfer the medium temporarily placed in the second transit cassette 820 to the identification unit 300 . Additionally, the control unit 700 may control the transport path for transporting media to different locations according to the types of media identified in the identification unit 300 .

For example, as shown in FIG. 4, the control unit 700 can sequentially control the upper transport path 410, the lower transport path 420, and the second branch transport path 432 such that the normal media identified in the identification unit 300 is transported to the reuse cassette 500. In this case, the control unit 700 may control the transport of the medium to the recycling cassettes 520, 530, and 540, except for the first recycling cassette 510 of the plurality of recycling cassettes 500. Additionally, as shown in FIG. 5, the control unit 700 may sequentially control the upper transport path 410 and the fourth branch transport path 434 such that the rejected media identified in the identification unit 300 is transported to the second transit cassette 820.

Meanwhile, referring to FIGS. 6 and 7, the control unit 700 may control the second transport path branch 432, the lower transport path 420, and the upper transport path 410 to transport the media housed in the reuse cassette 500 to the identification unit 300. Additionally, the control unit 700 may control the transport path for transporting media to different locations according to the types of media identified in the identification unit 300 .

For example, as shown in FIG. 6, the control unit 700 may sequentially control the upper transport path 410 and the fourth branch transport path 434 such that the normal medium identified in the identification unit 300 is transported to the first transit cassette 810. Further, as shown in FIG. .7, the control unit 700 can sequentially control the upper transport path 410, the lower transport path 420, and the third branch transport path 433 so that the rejected media identified in the identification unit 300 is transported to the reject cassette 600.

Next, in the case of refilling the media using the first pass-through cassette 810 and the second pass-through cassette 820, the control method of the media storage device according to the first embodiment of the present disclosure will be described.

Referring to FIGS. 2-5, the method for controlling the media storage device may provide a method for controlling the media storage device 10 to return funds placed in the recycling cassette 500 through the first through cassette 810 and the second through cassette 820, respectively, connected to the front and the rear portion of the safe 11. As shown in FIG. 8, the method S10 for controlling the media storage device may include a media receiving step S110, a primary media identification step S120, an initial media replenishment step S130, a temporary storage step S140, a media transport step S150, a secondary media identification step S160, a secondary media replenishment step S170, and a rejected media processing step S180.

In step S110 of receiving the media, the media transported from the first transit cassette 810 may be transported to the identification unit 300 . In step S110 of receiving media, the first transit cassette 810 can be connected to the first replenishment and return port 12a provided in the front portion of the safe 11 so that the media in the first transit cassette 810 can be transferred to the safe 11. In step S110 of receiving the media, the media from the first transit cassette 810 may be transported to the identification unit 300 via the fourth branch 434 of the transport path and the upper path 410 of the transport.

In the primary media identification step S120, the media transported to the identification unit 300 can be identified and recognized as a normal media or a rejected media. In step S120 of primary media identification, the media recognized as normal media can be transported to the reuse cassette 500. In step S120 of primary media identification, the media recognized as a rejected media may be transported to the second transit cassette 820.

In step S130 of initial replenishment of the medium, the medium identified as a normal medium in the identification unit 300 may be replenished into the reuse cassette 500. In the initial media replenishment step S130, the media recognized as normal media in the identification unit 300 can be transported through the upper transport path 410, the lower transport path 420, and the second branch transport path 432 to the reuse cassette 500 (see FIG. 2).

In a holding step S140, the medium identified as a rejected medium in the identification block 300 may be transported and placed in the second transit cassette 820. In a temporary storage step S140, the medium identified as a rejected medium in the identification block 300 may be transported to and placed in the second transit cassette 820 through the upper path 410 of the transport and the fifth branch 435 of the path of transportation (see Fig.3).

In step S150 of transporting the medium, the medium temporarily placed in the second transit cassette 820 may be transported to the identification unit 300 . In step S150 of transporting the medium, the medium temporarily placed in the second transit cassette 820 may be transported to the identification unit 300 via the fifth branch 435 of the transport path and the upper path 410 of the transport.

In step S160 of secondary media identification, the media transported to the identification unit 300 can be identified and recognized as a normal media or a rejected media.

In step S170 of secondary replenishment of the medium, the medium recognized as a normal medium in the identification unit 300 can be transported to the reuse cassette 500. In step S170 of secondary replenishment of the media, the media identified as normal media in the identification unit 300 can be transported through the upper transport path 410, the lower transport path 420, and the second branch transport path 432 into the reuse cassette 500 (see FIG. 4).

In reject media processing step S180, the media identified as reject media in the identification unit 300 may be transported to the first deposit cassette 810. The media identified as reject media in reject media processing step S180 may be conveyed via the upper transport path 410 and the fourth branch 434 of the transport path to the first deposit cassette 810 (see Fig.5).

Next, in the case of returning the media using the first pass-through cassette 810, the control method of the media storage device according to the first embodiment of the present disclosure will be described.

Referring to FIGS. 6-7, the method for controlling the media storage device may provide a method for controlling the media storage device 10 to return the media placed in the recycling cassette 500 through the first transit cassette 810 to the front portion of the safe 11. As shown in FIG. 9 , the media storage device control method S20 may include a media transport step S210, a media identification step S220, a media replenishment step S230, and a reject media storage step S240.

In the media transport step S210, the media placed in the recycling cassette 500 can be transported to the identification unit 300 . In the media transport step S210, the media placed in the recycling cassette 500 can be transported through the second transport path branch 432, the lower transport path 420, and the upper transport path 410 to the identification unit 300.

In the media identification step S220, the media transported to the identification unit 300 can be recognized as a normal media or a rejected media. the medium recognized as a normal medium in the medium identification step S220 may be transported to the first transit cassette 810 for return. A medium recognized as a rejected medium in the medium identification step S220 may be transported to the reject cassette 600 .

In a media return step S230, a medium recognized as a normal medium in the identification block 300 may be returned through the first transit cassette 810. In a medium return step S230, a medium recognized as a normal medium in the identification block 300 may be transported through the upper path 410 transport and the fourth branch 434 of the transport path in the first transit cassette 810 (see Fig.6).

In the reject media storage step S240, the media recognized as the reject media in the identification unit 300 may be transported to and placed in the reject cassette 600 . In the reject media storage step S240, the media recognized as the reject media in the identification unit 300 can be conveyed through the upper conveyance path 410, the lower conveyance path 420, and the third conveyance path branch 433 into the reject cassette 600 (see FIG. 7).

Examples of the present disclosure have been described above as specific embodiments, but they are only examples, and the present disclosure is not limited to them and should be construed as having the broadest scope in accordance with the technical spirit disclosed in the present description. One of ordinary skill in the art may combine/replace the disclosed embodiments to implement a form model that is not disclosed, but it also does not depart from the scope of the present disclosure. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on the present disclosure, and it is clear that such changes or modifications are also within the scope of this disclosure.

Claims (32)

1. A media storage device, comprising: - a safe having in the front section a first input for replenishment and return, to which the first transit cassette is selectively connected, and in the rear section, a second input for replenishment and return, to which the second transit cassette is optionally connected; - an identification block for identifying whether the medium is a normal medium or a rejected medium; a reuse cassette configured to receive a medium recognized as a normal medium; a transport path configured to transport the media between the first replenishment and return inlet, the second replenishment and return inlet, the identification unit, and the reuse cassette; And - a control unit configured to be controlled by transport such that the medium placed in the first transit cassette is transported to the identification unit, and the medium identified as a normal medium in the identification unit is transported to the reuse cassette, wherein the control unit is configured to control by transport such that the medium identified as a reject medium in the identification unit is transported to the second transit cassette, and the control unit is configured to be controlled by transport such that the media placed in the second transit cassette is transported to the identification unit, while the normal media identified in the identification unit is transported to the reuse cassette, and the rejected media identified in the identification unit is transported into the first transit cassette. 2. The media storage device of claim 1, further comprising: - a reject cassette configured to accommodate a rejected media, wherein the control unit controls the transport path so that the medium placed in the reuse cassette is transported to the identification unit, the medium identified as a normal medium in the identification unit is transported to the first transit cassette, and the medium identified as a rejected medium in the identification unit, transported to the reject cassette. 3. The media storage device of claim 2, wherein the transport path comprises: - an upper transport path configured to provide a transport path for the carrier transported to and from the identification unit; a lower conveyance path connected to an upper conveyance path to form a closed loop; - the second branch of the transport path, providing a path of movement of the medium between the lower path of transport and the reuse cassette; - the third branch of the transport path, providing a path of movement of the carrier between the lower path of transport and the reject cassette; - a fourth branch of the transport path, providing a carrier path between the first inlet and the junction point of the front side of the upper transport path and the lower transport path; And - a fifth branch of the transport path, providing a carrier path between the second inlet and the junction point of the rear side of the upper transport path and the lower transport path. 4. The media storage device according to claim 3, wherein the control unit is configured to control the fourth branch of the transport path and the upper transport path so that the media placed in the first transit cassette is transported to the identification unit, and control the upper transport path and the second branching the transport path so that the medium identified as the normal medium in the identification unit is transported to the reuse cassette. 5. The media storage device of claim 4, wherein the control unit is configured to control the upper transport path and the fifth leg of the transport path such that the media identified as a reject media in the identification unit is transported to the second transit cassette. 6. The media storage device according to claim 5, wherein the control unit is configured to control the fifth branch of the transport path and the upper transport path so that the medium placed in the second transit cassette is transported to the identification unit, control of the upper transport path, the lower transport path and the second branch of the transport path so that the medium identified as the normal medium in the identification unit is transported to the reuse cassette, and controlling the fourth branch of the transport path and the upper transport path so that the medium identified as the rejected medium in the identification unit is transported to the first transit cassette. 7. The media storage device according to claim 3, wherein the control unit is configured to control the second branch of the transport path, the lower transport path and the upper transport path so that the media placed in the reuse cassette is transported to the identification unit, the control of the upper transport path. transport path and the fourth branch of the transport path so that the medium identified as a normal medium in the identification unit is transported to the first transit cassette, and controlling the upper transport path and the third branch of the transport path so that the medium identified as a rejected medium in the identification unit is transported to the marriage cassette. 8. The media storage device of claim 2, wherein the reject cassette is located in the lower front portion of the safe to be adjacent to the first transit cassette. 9. A method for operating a media storage device, wherein a first pass-through cassette and a second pass-through cassette, respectively, are connected to a front portion and a rear portion of the safe, the method comprising: a media receiving step, including receiving the media from the first transit cassette and transporting the media to the identification unit; - the step of primary identification of the media, including the identification of whether the media transported to the identification unit, normal media or reject media; - the stage of the initial replenishment of the medium, including the transport of the medium, identified as a normal medium in the stage of primary identification of the medium, in the reuse cassette to replenish the media in it; a temporary storage step including transporting the media identified as a rejected media in the primary media identification step to a second transit cassette to temporarily place the media therein; - the step of transporting the medium, the medium temporarily placed in the second transit cassette, to the identification unit. a secondary media identification step including identifying whether the media transported to the identification unit is a normal media or a rejected media; a secondary media replenishment step including transporting the media identified as a normal medium in the secondary media identification step to a reuse cassette to replenish the media therein; And - a reject media handling step comprising transporting the media identified as reject media in the secondary media identification step to the first transit cassette.

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