KR102004729B1 - Financial Device - Google Patents

Abstract

According to an embodiment of the present disclosure, a financial device may include: a media entry / exit unit in which a medium for depositing money from an external source is inserted or a medium in which deposit is canceled is integrated; A first transfer unit provided in the media entry / exit unit and configured to process one or more of a medium for depositing and canceling a deposit; A discriminating unit for identifying a medium which is fed into the medium entering / exiting unit and transferred by the first conveying unit; A temporary accumulator for temporarily accumulating the medium identified by the discriminator; A second transfer unit provided in the temporary accumulation unit and configured to process one or more of a deposit confirmed medium and a deposit canceled medium; And a driving unit which transfers power and operates together with the first transfer unit and the second transfer unit. It may include.
According to the present invention, the structure of the financial device can have the advantage of being simplified. In addition, a small financial device can be provided. In addition, it may have the advantage that the control configuration for controlling the financial device is simplified. In addition, there is an advantage that the processing operation of the medium is carried out uniformly.

Description

Financial Device {Financial Device}

The present specification relates to a financial device.

Generally, a financial device is a device that processes a financial business desired by a customer. In addition, the financial device may deposit and withdraw the media or automatically transfer the media.

The financial device includes a media processing apparatus for processing a medium to be input and output, and a media integration apparatus for accumulating and storing the media. The media processing apparatus includes a media entry / exit unit into which media are inserted or discharged, and the media accumulation apparatus includes a temporary accumulator unit in which the injected media is temporarily accumulated.

Korean Patent Laid-Open Publication No. 10-2015-0093941 (August 19, 2015), which is a prior art document, discloses a financial device, a media processing device, and a media separation and integration device.

In the prior art, the idea of transferring the power of a power source to a feed roller unit, a gate roller unit, and a pickup roller unit for processing a medium integrated in the media entry / exit unit or temporary accumulation unit is disclosed.

 However, according to the related art, a plurality of power sources for operating the feed roller unit, the gate roller unit, and the pickup roller unit provided in the media entry / exit unit or the temporary accumulation unit are required. There is a problem that the size of the financial device increases because it needs to prepare a space. In addition, since there must be a plurality of control modules for controlling a plurality of power sources, there is a problem that the structure of the financial device is complicated.

The present invention can provide a financial device in which the overall structure is simplified by minimizing the number of power sources for operating the media processing apparatus and the media integration apparatus and the installation space of the power sources.

According to an embodiment of the present disclosure, a financial device may include: a media entry / exit unit in which a medium for depositing money from an external source is inserted or a medium in which a deposit is canceled is integrated; A first transfer unit provided in the media entry / exit unit and configured to process one or more of a medium for depositing and canceling a deposit; A discriminating unit for identifying a medium which is fed into the medium entering / exiting unit and transferred by the first conveying unit; A temporary accumulator for temporarily accumulating the medium identified by the discriminator; A second transfer unit provided in the temporary accumulation unit and configured to process one or more of a deposit confirmed medium and a deposit canceled medium; And a driving unit which transfers power and operates together with the first transfer unit and the second transfer unit. It may include.

According to the present invention, the media entry / exit unit and the temporary accumulation unit may be operated together through one driving unit, and thus, the structure of the financial device may be simplified.

According to the present invention, the media entry / exit unit and the temporary accumulation unit are operated through one driving unit, thereby minimizing a space for installing the driving unit inside the financial device, thereby providing a compact financial device.

According to the present invention, by driving a plurality of rollers provided in each of the media entry and exit and the temporary accumulation unit through one drive unit, the control configuration for controlling the financial device can be simplified.

According to the present invention, by rotating the plurality of rollers provided in each of the media entry and exit and the temporary accumulation unit by the power of the drive unit, there is an advantage that the processing operation of the medium is carried out uniformly.

1 is a perspective view showing a financial device according to an embodiment of the present invention.
2 is a block diagram illustrating a media processing apparatus according to an embodiment of the present invention.
3 is a configuration diagram briefly illustrating a driving unit according to a first embodiment of the present invention.
4 is a diagram illustrating a configuration of a driving unit, a media access unit, and a temporary accumulation unit according to the first embodiment of the present invention.
5 and 6 are diagrams showing that the first deposit is in the media entry and exit unit and the temporary accumulation unit according to the first embodiment of the present invention.
FIG. 7 is a diagram illustrating a second deposit in the media input / output unit and the temporary accumulation unit according to the first embodiment of the present invention.
8 is a view showing that the deposit is canceled in the media entry and exit unit and the temporary accumulation unit according to the first embodiment of the present invention.
9 is a view showing the configuration of a drive unit, a media access unit and a temporary accumulation unit according to a second embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing the embodiments of the present invention, when it is determined that a detailed description of a related well-known configuration or function interferes with the understanding of the embodiments of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but between components It will be understood that may be "connected", "coupled" or "connected".

The financial device according to an embodiment of the present invention, for example, obtains various media such as banknotes, securities (including checks), giro, coins, gift certificates, etc., and processes such as deposit processing, giro storage, gift certificate exchange, and / or withdrawal processing. It is a device that performs financial operations such as media processing such as withdrawal, withdrawal, gift card withdrawal, and the like. Examples of such a financial device may be an ATM (Automated Teller Machine) such as a cash dispenser (CD), a cash recycling device (Cash Recycling Device). However, the financial device is not limited to the above-described example, and may be various devices for automating financial tasks such as a financial information system (FIS).

Hereinafter, an embodiment of the present invention will be described on the assumption that the financial device is a financial automation device. However, this assumption is only for convenience of description, and the technical concept of the present invention is not limited to the automatic teller machine.

1 is a perspective view showing a financial device according to an embodiment of the present invention.

Referring to FIG. 1, the financial device 1 according to the present embodiment may include a cabinet 10 having an internal space. In addition, a plurality of components may be embedded in the internal space of the cabinet 10.

The financial device 1 may include a media entry and exit unit 100 for entering and exiting a medium.

The media entry / exit unit 100 may include a media storage space accessible by a customer. The media storage space may be opened and closed by a cover member such as a shutter and / or a cover.

Alternatively, the media entry / exit unit 100 may be maintained in an open state without being opened or closed. In addition, the media entry / exit unit 100 may serve as a common entry / exit unit in which a plurality of types of media such as banknotes and checks can be inserted and withdrawn. In addition, the medium may be introduced into the media entry / exit unit 100 in a bundle unit including a single sheet. In addition, the media may be discharged to the media input / output unit 100 in a bundle unit. In the present embodiment, the media inlet / outlet unit 100 serves as a common inlet / outlet that enables the inlet and outlet of the medium, but the media outlet having the inlet space into which the medium is drawn in and the outlet portion in which the medium is drawn out. It may be provided separately. It is not limited to this idea.

According to the type of the financial device 1, the financial device 1 may further include a bank book entry and exit unit 14 for the entry and exit of the bankbook, and a card entry and exit unit 15 for the entry and exit of the card. In this embodiment, the bank book entry and exit unit 14 or the card access unit 15 may be referred to as a customer information acquisition unit for obtaining customer information. In addition, the customer information acquisition unit may obtain information recorded in an RFID tag or a USB, or obtain information using biometric information such as a fingerprint. That is, the type of the customer information acquisition unit is not limited.

The financial device 1 may further include a user interface 11 displaying a menu and information for depositing or withdrawing money.

The interface unit 11 may receive or receive a command or information for depositing or withdrawing money from the user. In addition, the user interface 11 may be provided to a touch panel that receives a touch signal from a user. Alternatively, a separate button may be provided in the user interface unit 11 and may be provided as a screen for guiding the button. The spirit of the present invention is not limited to this configuration.

2 is a block diagram illustrating a media processing apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the financial device 1 may further include a media processing device 16 for processing a media.

The media processing device 16 may be accommodated in the cabinet 10. In addition, the media processing apparatus 16 may include the media entry / exit unit 100. In other words, the media processing device 16 may refer to devices accommodated in the cabinet 10 to process media deposited or withdrawn from the financial device 1.

The media processing apparatus 16 may include a discriminating unit 20 for storing the media or identifying the type of the media when the media is withdrawn. In addition, the discriminating unit 20 may determine a defective medium or a counterfeit medium. For example, the discriminating unit 20 may include at least one of a color sensor, a UV sensor, an IR sensor, and the like.

The media processing apparatus 16 may further include a media accumulation apparatus for accumulating and storing the media.

The media storage device may include at least one of a temporary storage unit 150 in which the media is temporarily accumulated, and a media storage box 40 for storing the media.

When the customer wants to deposit the medium into the financial device 1, the temporary accumulation unit 150 may temporarily store the medium received through the medium entry / exit unit 100. The temporary accumulation unit 150 may be disposed adjacent to the media entry / exit unit 100. The media accumulated in the temporary storage unit 150 may be transferred to the media storage box 40 when the customer finally determines media storage. On the other hand, when the customer finally decides to receive the media, the media accumulated in the temporary accumulation unit 150 may be transferred to the media entry / exit unit 100.

The media storage box 40 may include one or more bill storage boxes 41, 42, 43. In addition, the media storage box 40 may further include one or more check boxes (not shown). The medium storage box 40 may also include only a bill storage box or a check box. There is no limit to the number of the bill holders 41, 42, 43 and check box (not shown). In addition, the media storage box 40 may further include a storage box for storing gift certificates, securities, tickets, and the like. Alternatively, the check deposit box may be replaced with a deposit box for storing gift certificates, securities, and tickets. The spirit of the present invention is not limited to this configuration.

The media storage box 40 may be formed with a media inlet through which the transported media can be drawn in, and a media outlet through which the media integrated therein can be drawn out. In general, the media inlet and the media outlet may be formed at an upper end of a box constituting the appearance of the media storage box 40. Alternatively, the media inlet and the media outlet may be formed as a single inlet and outlet.

In addition, the media separating means for storing the media transferred from the outside of the media storage box 40 side by side inside the media storage box 40, separating the accumulated bills one by one, and transporting the media bank to the outside of the media storage box 40. It may be provided. That is, the media stored in the media storage box 40 may be withdrawn to the outside, and the deposited media may be stored in the media storage box 40.

The media accumulation apparatus may include a storage box 50 in which a medium determined to be defective in the deposit process or a medium rejected in the replenishment process is stored, or a medium determined to be defective in the withdrawal process is stored. . The collection box 50 may be provided separately from a plurality of collection boxes such as a first collection box in which a bad medium is stored in a deposit process, and a second collection box in which a bad medium is stored in a withdrawal process. In addition, the recovery box 50 may be provided by partitioning a plurality of recovery boxes in a single recovery box. It is not limited to this idea. And, it may further include a replenishment / recovery cassette (not shown) for replenishing or recovering the medium.

Each module (media entry / exit unit, discrimination unit, media storage box, temporary storage unit, collection box, etc.) constituting the financial device 1 may be connected by a plurality of transport paths.

3 is a configuration diagram briefly illustrating a driving unit according to a first embodiment of the present invention.

Referring to FIG. 3, the media entry / exit unit 100 may include a first transfer unit 120 for transferring a medium. The first transfer unit 120 may inject the medium into the medium entry / exit unit 100 or discharge the medium integrated therein to the outside.

The temporary accumulation unit 150 may include a second transfer unit 170 for transferring the medium. The second transfer unit 170 may inject the medium into the temporary accumulation unit 150 or discharge the medium integrated therein to the outside.

The first transfer unit 120 and the second transfer unit 170 may receive power from the driving unit 200. The driving unit 200 includes a first power transmission unit 201 for transmitting power to the first transfer unit 120 and a second power transmission unit 202 for transmitting power to the second transfer unit 170. It may include. For example, the first power transmission unit 201 and the second power transmission unit 202 may be provided as one of the belt, gear, chain, friction. However, in the present embodiment, the first power transmission unit 201 and the second power transmission unit to transfer the power of the drive unit 200 to the first transfer unit 120 and the second transfer unit 170. 202 is described as being provided as a belt, but is not limited to this idea. In addition, when the first power transmission unit 201 and the second power transmission unit 202 is provided as a gear, it will be possible to transmit power in various ways by adjusting the gear ratio to each other. For example, the driving unit 200 may be provided as a BLDC motor, an AC motor, a DC motor, or the like.

The driving unit 200 may be located between the first transfer unit 120 and the second transfer unit 170. Alternatively, the driving unit 200 is not positioned between the first transfer unit 120 and the second transfer unit 170, and the first transfer unit 120 and the second transfer unit (through the plurality of power transmission units). It is also possible to transmit power to the power supply.

4 is a diagram illustrating a configuration of a driving unit, a media access unit, and a temporary accumulation unit according to the first embodiment of the present invention.

Referring to FIG. 4, the media input / output unit 100 according to the present exemplary embodiment may pick up a medium, or transfer a first transfer unit 120 and a medium integrated in the first accumulation space 110 to accumulate the medium. It may include a first guide portion 130 for. The media entry / exit unit 100 is integrated with a medium for depositing or being discharged, or a medium that is discharged by depositing or canceling an input medium is accumulated, or a medium previously stored in the medium storage box 40 is discharged and collected at the request of a customer. I can understand it as a space to become.

The media entry / exit unit 100 has a first discharge port 111 for introducing the media accumulated in the first accumulation space 110 into a plurality of transport paths, and the media is introduced into the first accumulation space 110. It may include a first injection hole 112 to be. That is, the medium may be transferred to a plurality of transfer paths through the first discharge port 111. In addition, the medium may be transferred to the first accumulation space 110 through the first inlet 112 and may be integrated in the first accumulation space 110. In the present exemplary embodiment, the first outlet 111 and the first inlet 112 are respectively provided, but the first outlet 111 and the first inlet 112 are provided as one inlet and outlet. It is also possible to provide. It is not limited to this idea.

The first transfer unit 120 includes a first pickup roller 121 for picking up the integrated medium, a first feed roller 122 for transferring the picked up medium to the first discharge port 111, and the first feed roller. The first gate roller 123 may be disposed to face the feed roller 122. The first pickup roller 121, the first feed roller 122, and the first gate roller 123 may be disposed to be adjacent to the first discharge port 111. In addition, the first feed roller 122 may contact one surface of the medium that is disposed on one surface of the first discharge port 111. The first gate roller 123 is disposed on the other surface of the first discharge port 111 facing the one surface of the first discharge port 111 on which the first feed roller 122 is disposed It may be in contact with the other side. In this case, the first gate roller 123 may include the first feed roller in order to prevent a problem caused by the first pickup roller 121 picking up two or more media and entering the first discharge port 111. It may be rotated in the same direction as 122), or maintained in a stopped state. In the present embodiment, the first gate roller 123 will be described as maintaining a stopped state.

The first transfer part 120 is disposed adjacent to the first inlet 112, the first controller 124 and the second feed roller 125 for feeding the medium into the first integrated space 110. It may further include. The first controller 124 may be in contact with one surface of the medium that is disposed on one surface of the first inlet 112. The second feed roller 125 may be in contact with the other surface of the medium which is disposed on the other surface of the first injection hole 112 facing one surface of the first injection hole 112. In addition, the first controller 124 transfers the medium introduced into the first inlet 112 to the first integrated space 110 and strikes the medium injected into the first integrated space 110. The medium is stably integrated in the first integrated space 110.

Meanwhile, the first transfer part 120 may further include a plurality of shafts for rotating the respective rollers. The plurality of axes may rotate in conjunction with each other. That is, the first transfer unit 120 may be rotated by a plurality of rollers by the power transmitted from the drive unit 200. Therefore, when the power of the driving unit 200 is transmitted to the first transfer unit 120 through the first power transfer unit 201, the plurality of rollers included in the first transfer unit 120 may rotate together. Can be. At this time, the rotation direction of the plurality of rollers may be rotated in the same or different directions. It is not limited to this idea.

The first guide part 130 may include a first support guide 131 for supporting one surface of the medium, and a first pressure guide 132 for pressing the medium. The first support guide 131 and the first pressure guide 132 may move on the first integrated space 110. The first support guide 131 may support one surface of the media so that a plurality of media may be integrated in the first accumulation space 110. The first pressing guide 132 may press the medium accumulated in the first accumulation space 110 in the direction toward the first pickup roller 121 so that the medium is picked up.

The first support guide 131 and the first pressure guide 132 may be selectively moved to a position avoided from the first integrated space (110). For example, in the process of releasing the media integrated in the first accumulation space 110, the first support guide 131 may move to a position where the first accumulation space 110 may be avoided. Alternatively, in the process of injecting the medium into the first integrated space 110, the first pressing guide 132 may move to a position where the first integrated space 110 may be avoided. On the other hand, the first support guide 131 may not be selectively provided. Alternatively, the first support guide 131 and the first pressure guide 132 may be provided as one guide to pressurize the medium or support the medium. It is not limited to this idea.

Meanwhile, the temporary accumulator 150 according to the present exemplary embodiment includes a second transfer unit 170 for picking up a medium or accumulating the medium, and a second guide for transferring the medium integrated in the second accumulation space 160. It may include the unit 180. The temporary accumulation unit 150 may temporarily accumulate the media introduced into the media entry / exit unit 100 or release the media accumulated therein to the media entry / exit unit 100 by canceling a deposit of a user. In this case, it may be understood as “primary deposit” that is introduced into the media input / output unit 100, passes through the discriminating unit 20, and is integrated into the temporary accumulation unit 150.

In the state where the first deposit is in progress and the media is accumulated in the temporary accumulation unit 150, when the user finally approves the deposit, the media accumulated in the temporary accumulation unit 150 is stored in the discriminating unit ( 20 may be stored in the media storage box 40. In this case, it can be understood as being discharged from the temporary collecting unit 150 and passed through the discriminating unit 20 and integrated into the media storage box 40 as a “secondary deposit”.

In the state where the first deposit is in progress and the media is accumulated in the temporary accumulation unit 150, when the user finally denys the deposit, the media accumulated in the temporary accumulation unit 150 is the medium. May be emitted to the portion 100. At this time, it can be understood that the release from the temporary accumulation unit 150 is discharged to the media entry and exit unit 100 as "cancellation of deposit".

The temporary accumulation unit 150 is A second discharge port 161 for introducing the media accumulated in the second accumulation space 160 into a plurality of transport paths, and a second inlet 162 for introducing the medium into the second accumulation space 160; It may include. That is, the medium integrated in the second accumulation space 160 may be transferred to a plurality of transport paths through the second discharge port 161. In addition, the medium to be integrated in the temporary accumulation unit 150 may be transferred into the second accumulation space 160 through the second inlet 162 and may be integrated in the second accumulation space 160. In the present exemplary embodiment, the second outlet 161 and the second inlet 162 are respectively provided, but the second outlet 161 and the second inlet 162 are provided as one inlet and outlet. It is also possible to provide. It is not limited to this idea.

The second transfer unit 170 may include a second pickup roller 171 for picking up the integrated medium, a third feed roller 172 for transferring the picked up medium to the second discharge port 161, and the third feed roller 172. The second gate roller 173 may be disposed to face the feed roller 172.

The second pickup roller 171, the third feed roller 172, and the second gate roller 173 may be disposed to be adjacent to the second discharge port 161. In addition, the third feed roller 172 may contact one surface of the medium that is disposed on one surface of the second discharge port 161 and is transported. The second gate roller 173 is disposed on the other surface of the second discharge port 161 facing the one surface of the second discharge port 161 on which the third feed roller 172 is disposed. It may be in contact with the other side. In this case, the second gate roller 173 may include the third feed roller in order to prevent a problem caused by the second pickup roller 171 picking up two or more media and entering the second discharge port 161. 172 may be rotated in the same direction, or maintained in a stopped state. In the present embodiment, the second gate roller 173 is described as maintaining a stopped state.

The second transfer unit 170 is disposed adjacent to the second inlet 162, and the second controller 174 and the fourth feed roller 175 for feeding the medium into the second accumulation space 160. It may further include. The second controller 174 may be disposed on one surface of the second inlet 162 to contact one surface of a medium to be introduced. The fourth feed roller 175 may contact the other surface of the medium which is disposed on the other surface of the second injection hole 162 facing one surface of the second injection hole 162. In addition, the second controller 174 transfers the medium introduced into the second inlet 162 to the second integrated space 160 and strikes the medium injected into the second integrated space 160. The medium is stably integrated in the second accumulation space 160.

Meanwhile, the second transfer part 170 may further include a plurality of shafts for rotating the respective rollers. The plurality of axes may rotate in conjunction with each other. That is, the second transfer unit 170 may be rotated by a plurality of rollers by the power transmitted from the drive unit 200. Therefore, when the power of the driving unit 200 is transmitted to the second transfer unit 170 through the second power transfer unit 202, the plurality of rollers included in the second transfer unit 170 may rotate together. Can be. At this time, the rotation direction of the plurality of rollers may be rotated in the same or different directions. It is not limited to this idea.

The second guide part 180 may include a second support guide 181 for supporting one surface of the medium, and a second pressure guide 182 for pressing the medium. The second support guide 181 and the second pressure guide 182 may move on the second integrated space 160. The second support guide 181 may support one surface of the media so that a plurality of media may be integrated in the second accumulation space 160. The second pressing guide 182 may press the medium accumulated in the second accumulation space 160 in the direction toward the second pickup roller 171 to allow the medium to be picked up.

The second support guide 181 and the second pressure guide 182 may be selectively moved to a position avoided from the second integrated space 160. For example, in the process of releasing the media integrated in the second accumulation space 160, the second support guide 181 may move to a position where the second accumulation space 160 may be avoided. Alternatively, in the process of injecting the medium into the second integrated space 160, the second pressing guide 182 may move to a position where the second integrated space 160 may be avoided.

On the other hand, the second support guide 181 may not be selectively provided. Alternatively, the second support guide 181 and the second pressure guide 182 may be provided as one guide to pressurize the medium or support the medium. It is not limited to this idea.

5 and 6 are diagrams showing that the first deposit is in the media entry and exit unit and the temporary accumulation unit according to the first embodiment of the present invention.

5 and 6, the medium for the first deposit may be input from the outside to the medium entry / exit unit 100. Media input from the outside may be integrated in the first accumulation space 110. When the medium is integrated in the first integrated space 110, the driving unit 200 may operate. In this case, when the driving unit 200 operates, the first transfer unit 120 and the second transfer unit 170 may be operated together. In addition, the plurality of rollers included in the first transfer part 120 and the second transfer part 170 may rotate together.

The driving unit 200 may transmit power to the first transfer unit 120 through the first power transmission unit 201. The driving unit 200 may transmit power to the second transfer unit 170 through the second power transmission unit 202. In this case, the first power transmission unit 201 and the second power transmission unit 202 may be provided as a belt. Therefore, the rotation direction of the driving unit 200 and the rotation direction of the first transfer unit 120 and the second transfer unit 170 may be the same. The rotational direction of the first transfer unit 120 and the second transfer unit 170 may be rotated in a direction opposite to the rotation direction of the drive unit 200.

In the present embodiment, the first pickup roller 121 and the first feed roller 122 of the first transfer unit 120, the second pickup roller 171 and the third feed roller of the second transfer unit 170. Reference numeral 172 is described as being rotated in the same direction as the rotation direction of the driving unit 200. In addition, the second feed roller 125 of the first transfer unit 120 and the fourth feed roller 175 of the second transfer unit 170 are also rotated in the same direction as the rotation direction of the drive unit 200. Explain.

On the other hand, the first controller 124 of the first transfer unit 120 and the second controller 174 of the second transfer unit 170 are rotated in a direction opposite to the rotation direction of the drive unit 200. It explains. In addition, the first gate roller 123 of the first transfer unit 120 and the second gate roller 173 of the second transfer unit 170 will be described as maintaining a stopped state when the medium is discharged.

The first guide part 130 may press the medium accumulated in the first accumulation space 110 in the direction toward the first pickup roller 121. In detail, the first pressing guide 132 of the first guide part 130 may press one surface of the medium to press the medium in the direction toward the first pickup roller 121. In addition, the first support guide 131 of the first guide unit 130 may be avoided from the first pickup roller 121 to prevent contact with the medium picked up by the first pickup roller 121. It can be moved to a position that can be avoided, or from the first integrated space 110. This is not restrictive.

The medium picked up by the first pickup roller 121 may be introduced into a plurality of transport paths through the first discharge port 111. The medium passes through the discriminating unit 20 while being transported along a plurality of transport paths, and the medium passing through the discriminating unit 20 moves along the plurality of transport paths again, so that the temporary accumulator 150 It may pass through the second inlet 162. In this case, what is accumulated in the temporary storage unit 150 may be referred to as "primary deposit".

The medium passing through the second inlet 162 may be introduced into the second integrated space 160 by the second controller 174 and the fourth feed roller 175. The loaded medium may be integrated in the second accumulation space 160 by the second guide part 180. In detail, the second support guide 181 of the second guide portion 180 may support one surface of the medium to be inserted. In addition, the second pressing guide 182 of the second guide portion 180 may move to a position that can be avoided from the second integrated space 160. The second pressing guide 182 may later press the media accumulated in the temporary collecting unit 150 in the direction toward the second pickup roller 171.

FIG. 7 is a diagram illustrating a second deposit in the media input / output unit and the temporary accumulation unit according to the first embodiment of the present invention.

Referring to FIG. 7, when the first deposit is made from the media access unit 100 to the temporary accumulation unit 150, media may be integrated in the temporary accumulation unit 150. The media accumulated in the temporary storage unit 150 may be transferred to and stored in the media storage box 40 when the user's deposit approval is confirmed. In this case, the transfer of the medium from the temporary collecting unit 150 to the medium storage box 40 may be referred to as “secondary deposit”.

When the deposit confirmation is confirmed from the user through the interface unit 11, the driving unit 200 may operate to transfer power to the first transfer unit 120 and the second transfer unit 170.

When power is transmitted to the second transfer unit 170, the second pickup roller 171 and the third feed roller 172 may rotate. The second guide unit 180 may press the medium integrated in the second accumulation space 160 in the direction toward the second pickup roller 171. In detail, the second pressing guide 182 of the second guide part 180 may press one surface of the medium to press the medium in the direction toward the second pickup roller 171. In addition, the second support guide 181 of the second guide portion 180 may be avoided from the second pickup roller 171 to prevent contact with the medium picked up by the second pickup roller 171. Can be moved to a position that can be avoided from the second accumulation space 160. This is not restrictive.

The medium picked up by the second pickup roller 171 may be transported along a plurality of transport paths through the second discharge port 161. The medium may pass back through the discriminating unit 20 while being transported along a plurality of transport paths. The medium passing through the discrimination unit 20 may be divided into a volume, an authenticity, and the like of the medium, and may be integrated in the medium storage box 40 or the recovery box 50.

On the other hand, when the power of the driving unit 200 is transmitted to the first transfer unit 120 and a plurality of rollers are rotated, the medium may also be introduced into the first integrated space 110 of the media entry and exit unit 100 is integrated. have. In this case, in order to prevent the medium flowing into the first integrated space 110 from being transferred in the direction toward the first pickup roller 121, the first guide part 130 is configured to prevent the first integrated space 110 from being transferred to the first integrated space 110. You can move within. The first pressing guide 132 of the first guide portion 130 may move to a position that can be avoided from the first integrated space 110. In addition, the first support guide 131 of the first guide part 130 may move in the first accumulation space 110 to support one surface of the medium introduced into the first inlet 112. The first support guide 131 may move in a direction toward the first pickup roller 121 as the medium introduced through the first inlet 112 increases.

8 is a view showing that the deposit is canceled in the media entry and exit unit and the temporary accumulation unit according to the first embodiment of the present invention.

Referring to FIG. 8, the first deposit may be performed, and the media accumulated in the media entry / exit unit 100 may be transferred to the temporary accumulation unit 150. In the medium accumulated in the temporary collecting unit 150, the second deposit may be performed when the user's deposit approval is confirmed through the interface unit 11. On the other hand, when the user's non-approval is confirmed through the interface unit 11, the media accumulated in the temporary accumulation unit 150 may be returned to the media entry / exit unit 100. At this time, the release of the media accumulated in the temporary collecting unit 150 to the media entry and exit unit 100 may be referred to as "cancellation of deposit".

The driving unit 200 may rotate to transmit power to the first transfer unit 120 and the second transfer unit 170. When power is transmitted to the second transfer unit 170, the second pickup roller 171 and the third feed roller 172 may rotate. The second guide unit 180 may press the medium integrated in the second accumulation space 160 in the direction toward the second pickup roller 171. In detail, the second pressing guide 182 of the second guide part 180 may press one surface of the medium to press the medium in the direction toward the second pickup roller 171. In addition, the second support guide 181 of the second guide portion 180 may be avoided from the second pickup roller 171 to prevent contact with the medium picked up by the second pickup roller 171. Can be moved to a position that can be avoided from the second accumulation space 160. This is not restrictive.

The medium picked up by the second pick-up roller 171 is transferred along a plurality of transfer paths through the second discharge port 161, and passes through the first input hole 112 of the media input / output unit 100. It may be emitted to the first integrated space (110). The medium flowing into the first integrated space 110 may be introduced into the first integrated space 110 by the first controller 124 and the second feed roller 125.

When the medium is introduced into the first accumulation space 110 through the first inlet 112, the first guide part 130 moves in the first accumulation space 110 to support the medium. Can be. In detail, the first pressing guide 132 of the first guide portion 130 may move to a position that can be avoided from the first integrated space 110. In addition, the first support guide 131 of the first guide part 130 may move in the first accumulation space 110 to support one surface of the medium introduced into the first inlet 112. The first support guide 131 may move in a direction toward the first pickup roller 121 as the medium introduced through the first inlet 112 increases.

That is, according to the present invention, the size and manufacturing cost of the financial device 1 can be reduced by minimizing the number of the driving unit 200 which transmits power to the media entry / exit unit 100 and the temporary accumulation unit 150. . In addition, since one drive unit 200 may simultaneously supply power to the media entry / exit unit 100 and the temporary accumulation unit 150, the processing speed of the medium is increased, and the power control of the financial device 1 is easy. There is an advantage to being terminated.

9 is a view showing the configuration of a drive unit, a media access unit and a temporary accumulation unit according to a second embodiment of the present invention.

Referring to FIG. 9, the media entry / exit unit 300 according to the second embodiment of the present invention may include one first media entrance 313 through which media is inserted and discharged. The medium may be discharged to the first medium entrance 313 and transferred to a plurality of transfer paths. In addition, the medium may be introduced into the first medium entrance 313 to be integrated in the medium entrance / exit unit 300. In this case, the input of the medium means that the medium is transferred to the inside of the medium entry / exit unit 300 from the outside, and the discharge of the medium means that the medium accumulated inside the medium entry / exit unit 300 has It may mean that it is transferred to the outside.

The temporary accumulation unit 350 according to the second embodiment of the present invention may include one second medium entrance 363 through which a medium is inserted and discharged. The medium may be discharged to the second medium entrance 363 and transferred to a plurality of transfer paths. In addition, a medium may be injected into the second medium entrance 363 to be integrated in the temporary accumulation unit 350.

The media entry / exit unit 300 may include a first transfer unit 320. The first transfer unit 320 may include a first pickup roller 321, a first feed roller 322, a first gate roller 323, and a first controller 324.

The first pickup roller 321, the first feed roller 322, and the first gate roller 323 may be rotated by different axes, respectively. The first controller 324 may be disposed on the same axis as the first gate roller 323. Each axis for rotating each of the first pickup roller 321, the first feed roller 322, and the first gate roller 323 may operate in conjunction with each other. However, in the present embodiment, the first gate roller 323 and the first controller 324 may be provided on the same axis, and may rotate in one direction but stop without rotating in the other direction. It may include. For example, the configuration may include a one-way bearing. It is not limited to this idea.

The temporary accumulation unit 350 may include a second transfer unit 370. The second transfer unit 370 may include a second pickup roller 371, a second feed roller 372, a second gate roller 373, and a second controller 374. The second controller 374 may be disposed on the same axis as the second gate roller 373. Each axis that rotates the second pickup roller 371, the second feed roller 372, and the second gate roller 373 may operate in conjunction with each other. However, in the present embodiment, the second gate roller 373 and the second controller 374 may be provided on the same axis, and may be rotated in one direction but stopped without rotating in the other direction. It may include. For example, the configuration may include a one-way bearing. It is not limited to this idea.

The first transfer unit 320 and the second transfer unit 370 may operate by receiving power from the driving unit 400. The driving unit 400 may include a first power transmission unit 401 for transmitting the power of the driving unit 400 to the first transfer unit 320. The driving unit 400 may include a second power transmission unit 402 for transmitting the power of the driving unit 400 to the second transfer unit 370.

For example, the first power transmission unit 401 and the second power transmission unit 402 may be provided as one of a belt, a gear, a chain, and a friction difference. However, in the present embodiment, the first power transmission unit 401 and the second power transmission unit to transfer the power of the drive unit 400 to the first transfer unit 320 and the second transfer unit 370. 402 is described as being provided as a gear, but is not limited to this idea.

When the driving unit 400 is rotated in the clockwise direction, the first pickup roller 321 and the first feed roller 322 of the first transfer unit 320 may be rotated in the clockwise direction. At this time, the first gate roller 323 and the first controller 324 of the first transfer unit 320 may stop the rotation. When the first gate roller 323 and the first controller 324 stop rotation, the first gate roller 323 and the first controller 324 are the first pickup roller 321. It is picked up in contact with the medium passing through the first medium entrance 313, it is possible to prevent the plurality of media from being introduced into the transfer path.

When the driving unit 400 is rotated in the clockwise direction, the second pickup roller 371 and the second feed roller 372 of the second transfer unit 370 may be rotated in the counterclockwise direction. However, even if the second pick-up roller 371 and the second feed roller 372 of the second transfer unit 370 are rotated counterclockwise, the second gate roller 373 and the second transfer roller 370 of the second transfer unit 370 may rotate. The two controllers 374 may be rotated clockwise. When the second gate roller 373 and the second controller 374 are rotated in the clockwise direction, the second gate roller 373 passes through the second medium entrance 363 to the second accumulation space 360 of the temporary accumulation unit 350. The injected medium may be blown to be integrated in the second accumulation space 360.

That is, one drive unit 400 may be operated to simultaneously transmit power to the first transfer unit 320 and the second transfer unit 370, and the first transfer unit 320 and the second transfer unit 370 may operate together. The medium for the first deposit may be transferred from the medium entry / exit unit 300 to the temporary accumulation unit 350.

The second pickup roller 371 of the second transfer unit 370 when the driving unit 400 rotates counterclockwise while the first deposit is in progress and the medium is accumulated in the temporary accumulation unit 350. And the second feed roller 372 may be rotated clockwise. At this time, the second gate roller 373 and the second controller 374 of the second transfer unit 370 may stop the rotation. When the second gate roller 373 and the second controller 374 stop the rotation, the second gate roller 373 and the second controller 374 are the second pickup roller 371. A plurality of media can be prevented from being introduced into a plurality of transport paths by being brought into contact with the media picked up by the second media entrance 363 and passing through the second media entrance 363.

When the driving unit 400 is rotated counterclockwise, the first pickup roller 321 and the first feed roller 322 of the first transfer unit 320 may be rotated counterclockwise. However, even if the first pick-up roller 321 and the first feed roller 322 of the first transfer unit 320 is rotated in the counterclockwise direction, the first gate roller 323 and the first of the first transfer unit 320 are rotated. The one controller 324 may be rotated clockwise. When the first gate roller 323 and the first controller 324 are rotated in the clockwise direction, the first gate roller 323 and the first controller 324 rotate through the first medium entrance 313 to the first accumulation space 310 of the media entry / exit unit 300. The injected medium may be hit to be integrated in the first accumulation space 310.

That is, one drive unit 400 may be operated to simultaneously transmit power to the first transfer unit 320 and the second transfer unit 370, and the first transfer unit 320 and the second transfer unit 370 may operate together. In order to transfer the media accumulated in the temporary accumulation unit 350 to the media entry / exit unit 300, the deposit cancellation and the secondary deposit can be easily carried.

Meanwhile, the first guide part 330 of the medium entry / exit unit 300 may move in the first accumulation space 310 as the medium is accumulated or discharged. In addition, the second guide part 380 of the temporary accumulation part 350 may move in the second accumulation space 360 as the medium is accumulated or discharged. The movement process of the first guide part 330 and the second guide part 380 may be the same as in the first embodiment.

For example, when the medium is introduced into the first accumulation space 310 of the media entry / exit unit 300 or the second accumulation space 360 of the temporary accumulation unit 350, the first guide part ( The first support guide 331 of the 330 or the second support guide 381 of the second guide portion 380 may avoid the first integrated space 310 or the second integrated space 360. You can move it to a location. On the other hand, the first pressing guide 332 of the first guide portion 330 or the second pressing guide 382 of the second guide portion 380 is the first integrated space 310 or the second integrated space. The media integrated in the 360 may be pressed in the direction toward the first pickup roller 321 or the second pickup roller 371. It is not limited to this idea.

In the above description, all elements constituting the embodiments of the present invention are described as being combined or operating in combination, but the present invention is not necessarily limited to the embodiments. In other words, within the scope of the present invention, all of the components may be selectively operated in combination with one or more. In addition, the terms "comprise", "comprise" or "having" described above mean that the corresponding component may be inherent unless specifically stated otherwise, and thus excludes other components. It should be construed that it may further include other components instead. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 Financial device 100 media entry and exit
120 First transfer part 130 First guide part
150 Temporary accumulation unit 170 Second transfer unit
180 Second guide part 200 Driving part
201 First Power Train 202 Second Power Train

Claims (21)

A media entrance / receiving unit in which a medium for depositing money is input from the outside, or a medium in which deposit is canceled is integrated;
A first transfer unit provided in the media entry / exit unit and configured to process one or more of a medium for depositing and canceling a deposit;
A discriminating unit for identifying a medium which is fed into the medium entering / exiting unit and transferred by the first conveying unit;
A temporary accumulator for temporarily accumulating the medium identified by the discriminator;
A second transfer unit provided in the temporary accumulation unit and configured to process one or more of a deposit confirmed medium and a deposit canceled medium;
A driving unit which transfers power to the first transfer unit and the second transfer unit to operate together; And
And a medium storage box in which the deposit confirmed medium and the medium for withdrawal are stored. The method of claim 1,
And a first power transfer unit for transmitting power of the driving unit to the first transfer unit, and a second power transfer unit for transferring power of the driving unit to the second transfer unit. The method of claim 2,
The first power transmission unit and the second power transmission unit are each provided as a gear,
And the gear ratio of the first power transmission unit and the second power transmission unit is the same. The method of claim 2,
The media entry and exit unit,
A first integrated space in which the medium is integrated;
A first discharge port through which the medium integrated in the first accumulation space is discharged; And
And a first input port through which a medium to be integrated is inserted into the first integrated space. The method of claim 4, wherein
The first transfer unit,
A first pickup roller for picking up the media integrated in the first accumulation space to the first outlet;
A first feed roller contacting one surface of the picked up medium to provide a transfer force for transporting the picked up medium; And
A first gate roller disposed to face the first feed roller;
A first controller inserted into the first input hole and striking a medium to be integrated in the first accumulation space; And
And a second feed roller disposed to face the first controller, the second feed roller providing a transfer force to the medium introduced into the first inlet. The method of claim 5,
The media entry and exit unit,
And a first guide part configured to support one surface of the medium integrated in the first integrated space or to press the medium integrated in the first integrated space in a direction toward the first pickup roller. The method of claim 6,
The first guide portion is located at a position to avoid rotation radius of the first pick-up roller and the first feed roller when the second conveying unit is driven to operate one or more of the confirmed and canceled medium. Financial device characterized in that located. The method of claim 2,
The temporary accumulation unit,
A second accumulation space in which the medium is temporarily accumulated;
A second discharge port through which the medium integrated in the second accumulation space is discharged; And
And a second inlet through which a medium to be integrated is inserted into the second integrated space. The method of claim 8,
The second transfer unit,
A second pickup roller for picking up the media integrated in the second accumulation space to the second outlet;
A third feed roller contacting one surface of the picked up medium to provide a transfer force for transporting the picked up medium; And
A second gate roller disposed to face the third feed roller and in contact with the other surface of the medium;
A second controller inputting the second injection hole and striking a medium to be integrated in the second accumulation space; And
And a fourth feed roller disposed to face the second controller and providing a transfer force to the medium introduced into the second inlet. The method of claim 9,
The temporary accumulation unit,
And a second guide part configured to support one surface of the medium integrated in the second integrated space or to press the medium integrated in the second integrated space in a direction toward the second pickup roller. The method of claim 10,
When the first conveying unit is driven to operate at least one of a medium for depositing and a canceled medium, the second guide part may be positioned at a position to avoid rotation radiuses of the second pick-up roller and the third feed roller. Financial device characterized in that located. The method of claim 2,
The media entry and exit unit,
A first integrated space in which the medium is integrated; And
And a first medium entrance through which a medium integrated in the first integrated space is discharged or a medium to be integrated into the first integrated space is inserted. The method of claim 12,
The first transfer unit,
A first pickup roller for picking up the media integrated in the first accumulation space to the first medium entrance;
A first feed roller contacting one surface of the picked up medium to provide a transfer force for transporting the picked up medium;
A first gate roller disposed to face the first feed roller; And
And a first controller provided on an axis for rotating the first gate roller, the first controller being inserted into the first medium entrance and striking a medium to be integrated in the first accumulation space. The method of claim 13,
The media entry and exit unit,
And a first guide part configured to support one surface of the medium integrated in the first integrated space or to press the medium integrated in the first integrated space in a direction toward the first pickup roller. The method of claim 14,
The first guide portion is located at a position to avoid rotation radius of the first pick-up roller and the first feed roller when the second conveying unit is driven to operate one or more of the confirmed and canceled medium. Financial device characterized in that located. The method of claim 2,
The temporary accumulation unit,
A second accumulation space in which the medium is temporarily accumulated; And
And a second medium entrance through which a medium integrated in the second integrated space is discharged or a medium to be integrated into the second integrated space is inserted. The method of claim 16,
The second transfer unit,
A second pickup roller for picking up the media integrated in the second accumulation space to the second medium entrance;
A second feed roller contacting one surface of the picked-up medium to provide a feed force to convey the picked-up medium;
A second gate roller disposed to face the second feed roller; And
And a second controller provided on an axis for rotating the second gate roller, the second controller being inserted into the second medium entrance and striking a medium to be integrated in the second integrated space. The method of claim 17,
The temporary accumulation unit,
And a second guide part configured to support one surface of the medium integrated in the second integrated space or to press the medium integrated in the second integrated space in a direction toward the second pickup roller. The method of claim 18,
When the first conveying unit is driven to operate one or more of the depositing medium and the canceled medium, the second guide part may be positioned at a position to avoid rotation radius of the second pick-up roller and the second feed roller. Financial device characterized in that located. The method of claim 2,
The first power transmission unit and the second power transmission unit,
A financial device for simultaneously transmitting power to the first transfer unit and the second transfer unit. The method of claim 2,
The power transmission unit of any one of the first power transmission unit and the second power transmission unit,
The financial device for transmitting power in a rotational direction opposite to the rotational direction of the drive unit to any one of the first transfer unit and the second transfer unit.

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