JP6879043B2 - Media processing equipment and cash processing equipment - Google Patents

Description

The present invention relates to a medium processing device and a cash processing device.

In recent years, there are media processing devices that process media. In general, a medium processing apparatus has a configuration for accumulating media and a configuration for separating the integrated media (see, for example, Patent Document 1). Hereinafter, these configurations are also collectively referred to as a “separation / accumulation unit”. More specifically, the separation / accumulation unit sends out a stage that moves to a position determined at the time of separation and accumulation of the medium, an impeller for accumulating the medium on the stage, a picker roller for feeding out the medium, and a delivered medium. It has a feed roller and a separation roller for the purpose.

Generally, the impeller taps the rear end of the medium by a rotational motion to accumulate the medium on the stage. As a result, the accumulation space of the medium to be conveyed to the separation / accumulation unit next can be more reliably secured. In order to ensure the media integration performance by allowing the impeller to hit the rear end of the medium more reliably, the separation and integration unit prevents the impeller from contacting mechanical parts such as picker rollers and feed rollers during rotational operation. It is configured in.

Japanese Unexamined Patent Publication No. 2007-276981

However, in order to reduce the size of the separation and integration part, if the impeller and the shaft that supports the feed roller are brought close to each other without changing the rotation diameter of the impeller, if the impeller rotates when the medium is integrated, the blades There is a risk that the vehicle will come into contact with the shaft that supports the feed roller during rotational operation. When the impeller comes into contact with the shaft that supports the feed roller, the performance of the impeller hitting the rear end of the medium may deteriorate and the integration performance of the medium may deteriorate.

As an example of miniaturization of the separation / integration portion, it is assumed that the diameter of at least one of the feed roller and the separation roller is reduced. However, since the feed roller and the separation roller must be in contact with each other, if the diameter of at least one of the feed roller and the separation roller is reduced, the impeller and the shaft supporting the feed roller coaxial with the separation roller. There is a risk that the impeller will come into contact with the shaft that supports the feed roller during the rotational operation.

Therefore, it is desired to provide a technique that makes it possible to reduce the size of the separated and integrated portion of the medium. As an example of miniaturization of the separation / integration portion, it is desired to provide a technique for reducing the diameter of at least one of the feed roller and the separation roller.

In order to solve the above problem, according to a certain viewpoint of the present invention, a separation roller which is pivotally supported by a first rotation shaft and separates and sends out media one by one, and an outer peripheral surface of the first rotation shaft. It is pivotally supported by an impeller that is provided and has one or a plurality of blades hitting the medium to accumulate the medium in the medium accumulating portion, and a second rotating shaft that is arranged so as to avoid a position facing the impeller. A medium processing apparatus is provided that includes a feed roller provided at a position facing the separation roller.

The medium processing device may include a drive transmission means for transmitting the rotational driving force of the third rotating shaft to the second rotating shaft.

The medium processing device may include a feeding section for feeding out the medium accumulated in the medium stacking section.

The feeding portion may include a picker roller pivotally supported by the third rotating shaft.

The payout portion may include a part or all of the outer peripheral surface of the drive transmission means.

The medium processing device may include a transport unit for transporting the medium.

The transport unit may include a transport roller provided on the second rotating shaft.

The transport unit may include a part or all of the outer peripheral surface of the drive transmission means.

The feed roller may feed the medium while sandwiching the medium with the separation roller.

The second rotation shaft is divided into a plurality of parts, and the feed roller may be pivotally supported by each of the plurality of parts of the second rotation shaft.

The second rotating shaft may be fixed to the traveling guide.

Further, according to another aspect of the present invention, there is a separation roller that is pivotally supported by the first rotating shaft and separates and sends out bills one by one, and one or one provided on the outer peripheral surface of the first rotating shaft. An impeller having a plurality of blades and hitting the bill with the one or the plurality of blades to collect the bills in the bill collecting portion, and a second rotating shaft arranged so as to avoid a position facing the impeller. A cash processing apparatus is provided that includes a feed roller that is pivotally supported by the banknote and is provided at a position facing the separation roller.

As described above, according to the present invention, there is provided a technique that enables the separation and integration portion of the medium to be miniaturized. Further, according to the present invention, as an example of miniaturization of the separation / integration portion, a technique capable of reducing the diameter of at least one of the feed roller and the separation roller is provided.

It is external perspective view of the cash processing apparatus which concerns on one Embodiment of this invention. It is a block diagram which shows the functional structure example of the cash processing apparatus which concerns on this embodiment. It is a perspective view of the separation and accumulation part which the banknote processing apparatus of the cash processing apparatus which concerns on 1st Embodiment has. It is a top view of the separation and accumulation part which concerns on 1st Embodiment. It is a side view of the separation and accumulation part which concerns on 1st Embodiment. It is a perspective view of the separation and accumulation part which the banknote processing apparatus of the cash processing apparatus which concerns on 2nd Embodiment has. It is a top view of the separation and accumulation part which concerns on 2nd Embodiment. It is a side view of the separation and accumulation part which concerns on 2nd Embodiment. It is a perspective view of the separation and accumulation part which concerns on a comparative example. It is a top view of the separation and accumulation part which concerns on a comparative example. It is a side view of the separation and accumulation part which concerns on a comparative example.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the present specification and the drawings, components having substantially the same functional configuration are designated by the same reference numerals, so that duplicate description will be omitted.

Further, in the present specification and the drawings, a plurality of components having substantially the same functional configuration may be distinguished by adding different numbers after the same reference numerals. However, if it is not necessary to distinguish each of a plurality of components having substantially the same functional configuration, only the same reference numerals are given. Further, similar components of different embodiments may be distinguished by adding different alphabets after the same reference numerals. However, if it is not necessary to distinguish each of the similar components of different embodiments, only the same reference numerals are given.

(0. Overview)
First, an outline of the cash processing apparatus according to the present embodiment will be described. FIG. 1 is an external perspective view of the cash processing apparatus according to the present embodiment. In the example shown in FIG. 1, the cash processing device 100 is, for example, a register installed in a checkout counter such as a retail store such as a supermarket or a convenience store, or a large-scale mass retailer such as a discount shop, or a POS (Point Of Sales) register. It is a cash change machine connected to such as. The cash processing device 100 includes a coin processing device 300, a bill processing device 200, a display unit 221 and an operation unit 222.

The coin processing device 300 is provided on about half of the left side of the cash processing device 100 in the width direction (left-right direction toward the front surface of the cash processing device 100) and manages the deposit and withdrawal of coins. The coin processing device 300 has a coin deposit port 310, a coin withdrawal port 320, and a reject port 330 in front of the device. The deposit coin is inserted into the coin deposit slot 310 by the operator. Withdrawal coins are discharged from the device into the coin withdrawal port 320. Reject coins are discharged from the reject port 330.

In this embodiment, an example in which the cash processing device 100 has the coin processing device 300 will be mainly described. However, the cash processing device 100 may have a medium processing device that processes some medium. That is, the medium processing device may process coins in the same manner as the coin processing device 300 processes coins, or may process a medium other than coins in the same manner as the coin processing device 300 processes coins.

The banknote processing device 200 is provided on about half of the right side of the cash processing device 100 in the width direction, and manages the deposit and withdrawal of banknotes. The bill processing device 200 has a shutter 232 that can be opened and closed with respect to the bill deposit / withdrawal port in front of the device. With the shutter 232 open, the operator inserts the deposit bill into the bill deposit / withdrawal port, or takes out the withdrawal bill discharged into the bill deposit / withdrawal port.

In this embodiment, an example in which the cash processing device 100 has the banknote processing device 200 will be mainly described. However, the cash processing device 100 may have a medium processing device that processes some medium. That is, the medium processing device may process banknotes in the same manner as the processing of banknotes by the banknote processing device 200, or may process media other than banknotes in the same manner as the processing of banknotes by the banknote processing device 200.

The display unit 221 is composed of, for example, a liquid crystal display and displays a menu screen or the like. In addition, the display unit 221 displays information indicating the state of the cash processing device 100. The display unit 221 is provided next to the operation unit 222 on the front upper surface of the bill processing device 200.

The operation unit 222 has keys, buttons, and the like, and accepts the operation of the operator. For example, the operator selects a desired item on the selection screen displayed on the display unit 221 by the operation unit 222. The operation unit 222 is arranged on the front upper surface of the bill processing device 200.

The cash processing device 100 is provided with a control unit that controls the overall operation of the cash processing device 100. This control unit has a control unit that controls the components of the cash processing device 100, and a storage unit that stores a program or the like executed by the control unit.

The cash processing device 100 includes a coin processing device 300 and a bill processing device 200, but the cash processing device 100 is not limited to this, and for example, the cash processing device 100 has only the coin processing device 300. May be good. Further, the cash processing device 100 is a cash change machine connected to a register or the like, but the present invention is not limited to this, and for example, the cash processing device 100 is provided at a business office of a financial institution or the like. It may be provided in an automated teller machine (ATM) typified by an automated teller machine (ATM).

FIG. 2 is a block diagram showing a functional configuration example of the cash processing apparatus 100 according to the present embodiment. As shown in FIG. 2, the cash processing device 100 includes a control unit 160, a storage unit 170, a communication unit 180, an operation display unit 220, a bill deposit / withdrawal unit 230, and a coin deposit / withdrawal unit 340.

The control unit 160 includes a CPU (Central Processing Unit) and the like, and its function can be realized by the program stored in the storage unit 170 being expanded and executed by the CPU in a RAM (Random Access Memory). At this time, a computer-readable recording medium on which the program is recorded may also be provided. Alternatively, the control unit 160 may be configured by dedicated hardware, or may be configured by a combination of a plurality of hardware.

The storage unit 170 is a storage device capable of storing programs and data for operating the control unit 160. In addition, the storage unit 170 can temporarily store various data required in the process of operation of the control unit 160. For example, the storage device may be a non-volatile storage device.

The communication unit 180 is a communication interface for communicating with the host computer 400 via the network 500. In the present embodiment, it is mainly assumed that the communication unit 180 performs wired communication, but the communication unit 180 may perform wireless communication.

In addition, the operation display unit 220 corresponds to the above-mentioned display unit 221 and the above-mentioned operation unit 222. The bill deposit / withdrawal unit 230 has a function of performing bill deposit / withdrawal processing. The coin deposit / withdrawal unit 340 has a function of performing coin deposit / withdrawal processing.

The outline of the cash processing apparatus 100 according to the present embodiment has been described above. Each configuration of the cash processing device 100 described above is premised on, for example, the cash processing device 100 according to each of the first embodiment and the second embodiment described below.

(1. First Embodiment)
Subsequently, the first embodiment will be described.

FIG. 3 is a perspective view of a separate and integrated portion of the bill processing device 200 of the cash processing device 100 according to the first embodiment. FIG. 4 is a top view of the separated and integrated portion according to the first embodiment. FIG. 5 is a side view of the separated and integrated portion according to the first embodiment. As shown in FIG. 3, the separation and integration unit includes a picker roller 12, a shaft 12a (third rotating shaft), a feed roller 13, a shaft 13a (second rotating shaft), a separating roller 14, and a shaft 14a (first rotating shaft). It has a rotating shaft), a transport roller 15, an actuator 16, a drive belt 17, a spring 18, a stage 19 (medium integrating portion), a spring 20, a crimping roller 23, and a traveling guide 31.

The actuator 16 is composed of a motor or the like for driving the shaft 12a on which the picker roller 12 is pivotally supported. When a driving force is input from the actuator 16, the shaft 12a is configured to rotate according to the driving force. The picker roller 12 is pivotally supported by the shaft 12a, and functions as an example of a feeding portion for feeding out the bills accumulated on the stage 19. Specifically, the banknotes accumulated on the stage 19 are pressed against the picker roller 12 by the spring 20, and are fed out by the rotational operation of the picker roller 12.

The drive belt 17 functions as an example of drive transmission means for transmitting the rotational driving force of the shaft 12a to the shaft 13a. In this embodiment, an example in which the drive belt 17 is used as an example of the drive transmission means will be mainly described. However, the drive transmission means is not limited to the drive belt 17. For example, as the drive transmission means, a gear train may be used instead of the drive belt 17, or a chain may be used.

Here, as shown in FIGS. 3 and 4, the shaft 13a is arranged so as to avoid a position facing the impeller 22 (provided so as to avoid the impeller 22). The feed roller 13 is pivotally supported by the shaft 13a and is provided at a position facing the separation roller 14. The feed roller 13 sends out the banknotes drawn out by the picker roller 12 while being sandwiched between the separation roller 14 and the banknotes by a rotational operation about the shaft 13a.

In the present embodiment, as shown in FIGS. 3 and 4, the shaft 13a is divided into two, and the feed roller 13 is pivotally supported by each of the two divided shafts 13a. Suppose. However, the configuration of the shaft 13a is not limited to such an example. For example, the shaft 13a may be divided into three or more, or may not be divided into one.

Further, both ends of the shaft 13a are held in holes 31a provided in the traveling guide 31, and the structure is such that they cannot be easily removed from the holes 31a by fastening metal fittings 32 such as E-shaped retaining rings. More specifically, the traveling guide 31 is provided with a fixing portion 33 in which a part of the traveling guide 31 is bent, and both ends of the shaft 13a are fixed to holes 31a provided in the fixing portion 33. .. Further, the traveling guide 31 is provided with a through hole 34 from which the feed roller 13 and the transport roller 15 project, and a through hole 35 from which the impeller 22 protrudes.

The transport roller 15 is pivotally supported by the shaft 13a and functions as an example of a transport unit that transports banknotes. More specifically, the transport roller 15 sandwiches the banknotes sent out while being sandwiched between the feed roller 13 and the separation roller 14 with the crimping roller 23 by a rotational operation around the shaft 13a. Send out.

The separation roller 14 is pivotally supported by the shaft 14a, and applies a constant load to the banknotes so that the plurality of banknotes are not overlapped and sent out. Specifically, the separation roller 14 is pressed against the opposing feed roller 13 by the spring 18, and rotates due to the frictional force received from the feed roller 13.

The shaft 14a on which the separation roller 14 is pivotally supported is provided with a structure (one-way clutch 21 or the like) for restricting the rotation direction of the separation roller 14 in one direction. In the present embodiment, as shown in FIGS. 3 and 5, the separation roller 14 is regulated by the one-way clutch 21 so that the separation roller 14 does not rotate when the banknotes are separated and rotates in the A direction only when the banknotes are accumulated. Is mainly assumed.

An impeller 22 is provided on the shaft 14a on which the separation roller 14 is pivotally supported. The impeller 22 has four blades provided on the outer peripheral surface of the shaft 14a, and the four blades hit the banknotes to collect the banknotes on the stage 19. As a result, the collection space for the banknotes to be conveyed to the separation / accumulation unit next can be secured more reliably. The number of blades of the impeller 22 is not limited. For example, the impeller 22 may have one or more blades provided on the outer peripheral surface of the shaft 14a. The impellers 22 are provided on both sides of the separation roller 14 so as to sandwich the separation roller 14 pivotally supported by the shaft 14a. Further, the impellers 22 are provided on both sides of each of the shafts 13a divided into two (four in total).

Here, a comparative example will be described. FIG. 9 is a perspective view of the separated and integrated portion according to the comparative example. FIG. 10 is a top view of the separated and integrated portion according to the comparative example. FIG. 11 is a side view of the separated and integrated portion according to the comparative example. As shown in FIGS. 9 and 10, in the comparative example, the shaft 13a that pivotally supports the feed roller 13 is arranged at a position facing the impeller 22. In the comparative example, the gear train 24 is used as an example of the drive transmission means for transmitting the rotational driving force of the shaft 12a to the shaft 13a.

In the comparative example, when the impeller 22 and the shaft 13a that supports the feed roller 13 are brought close to each other without changing the rotation diameter of the impeller 22 in order to reduce the size of the separated and integrated portion, the impeller 22 is used when the bills are accumulated. When the rotary operation is performed, the impeller 22 may come into contact with the shaft 13a that pivotally supports the feed roller 13 during the rotational operation. With reference to FIG. 10, the contact portion B between the shaft 13a and the impeller 22 is shown. When the impeller 22 comes into contact with the shaft 13a that pivotally supports the feed roller 13, the performance of the impeller 22 hitting the rear end of the bills may deteriorate, and the bill stacking performance may deteriorate.

As an example of miniaturization of the separation / integration portion, it is assumed that the diameter of at least one of the feed roller 13 and the separation roller 14 is reduced. However, since the feed roller 13 and the separation roller 14 need to be in contact with each other, when the diameter of at least one of the feed roller 13 and the separation roller 14 is reduced, the impeller 22 and the feed are coaxial with the separation roller 14. The shaft 13a that pivotally supports the roller 13 may come close to the shaft 13a that pivotally supports the roller 13, and the impeller 22 may come into contact with the shaft 13a that pivotally supports the feed roller 13 during the rotational operation.

The process returns to FIGS. 3 to 5 and returns to the description of the first embodiment. In the first embodiment, as shown in FIGS. 3 and 4, the shaft 13a is arranged so as to avoid a position facing the impeller 22 (for example, the shaft 13a is divided into two blades. It is arranged avoiding the position facing the car 22). The feed roller 13 is pivotally supported by the shaft 13a and is provided at a position facing the separation roller 14.

Therefore, in the first embodiment, when the impeller 22 and the shaft 13a that pivotally supports the feed roller 13 are brought close to each other without changing the rotation diameter of the impeller 22 in order to reduce the size of the separated and integrated portion, the bill is used. Even if the impeller 22 rotates during the integration, the impeller 22 does not come into contact with the shaft 13a that pivotally supports the feed roller 13 during the rotation operation. Therefore, in the first embodiment, it is possible to prevent the impeller 22 from deteriorating the performance of hitting the rear end of the bill and prevent the performance of accumulating the bills from deteriorating.

As an example of miniaturization of the separation / integration portion, it is assumed that the diameter of at least one of the feed roller 13 and the separation roller 14 is reduced. As described above, since the feed roller 13 and the separation roller 14 need to be in contact with each other, when the diameter of at least one of the feed roller 13 and the separation roller 14 is reduced, the impeller is coaxial with the separation roller 14. Although the 22 and the shaft 13a that pivotally supports the feed roller 13 come close to each other, there is no possibility that the impeller 22 comes into contact with the shaft 13a that pivotally supports the feed roller 13 during the rotational operation.

In the above, the first embodiment has been described.

(2. Second embodiment)
Subsequently, the second embodiment will be described. In the following, among the separate and integrated parts according to the second embodiment, a configuration different from the configuration of the separated and accumulated part according to the first embodiment will be mainly described, and the separated and accumulated part according to the first embodiment will have. The description of the configuration common to the configuration will be omitted.

FIG. 6 is a perspective view of a separate and accumulated portion of the bill processing device 200 of the cash processing device 100 according to the second embodiment. FIG. 7 is a top view of the separated and integrated portion according to the second embodiment. FIG. 8 is a side view of the separated and integrated portion according to the second embodiment.

Here, as shown in FIG. 3, in the first embodiment, an example in which the picker roller 12 functions as an example of a payout portion for paying out the bills accumulated in the stage 19 has been described. In the second embodiment, as shown in FIG. 6, the outer peripheral surface of the drive belt 17 as an example of the drive transmission means functions as an example of a feeding portion for feeding out the bills accumulated on the stage 19. Instead, a part of the Picker Roller 12 according to the first embodiment has been deleted in the second embodiment.

In the example shown in FIG. 6, another part of the picker roller 12 according to the first embodiment is left in the second embodiment. However, in the second embodiment, the picker roller 12 may not be present. Further, in the example shown in FIG. 6, the case where the entire outer peripheral surface of the drive belt 17 functions as the feeding portion will be described, but a part of the outer peripheral surface of the drive belt 17 may function as the feeding portion.

Further, as shown in FIG. 3, in the first embodiment, an example in which the transport roller 15 functions as an example of a transport unit for transporting banknotes has been described. In the second embodiment, as shown in FIG. 6, the outer peripheral surface of the drive belt 17 as an example of the drive transmission means functions as an example of a transport portion for transporting banknotes. Instead, the transport roller 15 according to the first embodiment has been deleted in the second embodiment.

In the example shown in FIG. 6, all of the transport rollers 15 according to the first embodiment are deleted in the second embodiment. However, in the second embodiment, a part of the transport roller 15 according to the first embodiment may be left. Further, in the example shown in FIG. 6, the case where the entire outer peripheral surface of the drive belt 17 functions as a transport portion will be described, but a part of the outer peripheral surface of the drive belt 17 may function as a transport portion.

Of the outer peripheral surfaces of the drive belt 17, the surface that functions as a feeding portion for feeding out the bills accumulated on the stage 19 is preferably made of a material having a friction coefficient of a certain level or more (for example, a rubber material) (for example, friction). The coefficient is preferably 1 or more). Of the outer peripheral surfaces of the drive belt 17, it is desirable that the surface that functions as a transporting portion for transporting banknotes is also made of a material having a friction coefficient of a certain level or higher (for example, a rubber material) (for example, a friction coefficient of 1 or more). It is desirable to have). In the example shown in FIG. 6, the entire outer peripheral surface of the drive belt 17 functions as a feeding portion and a conveying portion.

As described above, in the second embodiment, the outer peripheral surface of the drive belt 17 as an example of the drive transmission means functions as an example of a feeding portion for feeding out the bills accumulated on the stage 19. Instead, some or all of the Picker Roller 12 is no longer needed. Therefore, in the second embodiment, it is expected that the number of parts required for the separated / integrated portion can be reduced.

Further, in the second embodiment, the transport roller 15 functions as an example of a transport unit that transports banknotes. Instead, some or all of the transport rollers 15 are no longer needed. Therefore, in the second embodiment, it is expected that the number of parts required for the separated / integrated portion can be reduced.

The second embodiment has been described above.

(3. Summary)
According to the first embodiment, the separation roller 14 is pivotally supported by the shaft 14a and separates and sends out the media one by one, and has one or a plurality of blades provided on the outer peripheral surface of the shaft 14a. It is pivotally supported by an impeller 22 that hits banknotes with a plurality of blades to collect banknotes on the stage 19 and a shaft 13a that is arranged so as to avoid a position facing the impeller 22 and is provided at a position facing the separation roller 14. A banknote processing device 200 including a feed roller 13 and a feed roller 13 is provided.

According to this configuration, when the impeller 22 and the shaft 13a that pivotally supports the feed roller 13 are brought close to each other without changing the rotation diameter of the impeller 22 in order to reduce the size of the separation and accumulation portion, the impeller is used when the bills are accumulated. Even if the 22 performs a rotational operation, the impeller 22 does not have to come into contact with the shaft 13a that pivotally supports the feed roller 13 during the rotational operation. Therefore, in the first embodiment, it is possible to prevent the impeller 22 from deteriorating the performance of hitting the rear end of the bill and prevent the performance of accumulating the bills from deteriorating.

As an example of miniaturization of the separation / integration portion, it is assumed that the diameter of at least one of the feed roller 13 and the separation roller 14 is reduced. As described above, since the feed roller 13 and the separation roller 14 need to be in contact with each other, when the diameter of at least one of the feed roller 13 and the separation roller 14 is reduced, the impeller is coaxial with the separation roller 14. Although the 22 and the shaft 13a that pivotally supports the feed roller 13 come close to each other, there is no possibility that the impeller 22 comes into contact with the shaft 13a that pivotally supports the feed roller 13 during the rotational operation.

According to the second embodiment, the payout portion for paying out the bills accumulated on the stage 19 includes a part or all of the outer peripheral surface of the drive belt 17. Therefore, in the second embodiment, it is expected that the number of parts required for the separated / integrated portion can be reduced. Further, according to the second embodiment, the transport unit for transporting banknotes includes a part or all of the outer peripheral surface of the drive belt 17. Therefore, in the second embodiment, it is expected that the number of parts required for the separated / integrated portion can be reduced.

(4. Explanation of modified example)
Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to such examples. It is clear that a person having ordinary knowledge in the field of technology to which the present invention belongs can come up with various modifications or modifications within the scope of the technical idea described in the claims. , These are also naturally understood to belong to the technical scope of the present invention.

12 Picker roller 12a Shaft 13 Feed roller 13a Shaft 14 Separation roller 14a Shaft 15 Conveyor roller 16 Actuator 17 Drive belt 18 Spring 19 Stage 20 Spring 21 One-way clutch 22 Impeller 23 Crimping roller 24 Gear row 31 Travel guide 31a Hole 32 Fastener Cash processing device 160 Control unit 170 Storage unit 180 Communication unit 200 Banknote processing device 220 Operation display unit 221 Display unit 222 Operation unit 230 Banknote deposit / withdrawal unit 232 Shutter 300 Coin processing device 310 Coin deposit port 320 Coin withdrawal port 330 Reject port 340 Coin deposit / withdrawal department 400 Host computer 500 Network

Claims (11)

A separation roller that is pivotally supported by the first rotation axis and separates and sends out media one by one.
An impeller provided on the outer peripheral surface of the first rotating shaft and hitting the medium with one or a plurality of blades to accumulate the medium in the medium accumulating portion.
A feed roller that is pivotally supported by a second rotating shaft arranged so as to avoid a position facing the impeller and is provided at a position facing the separation roller.
A drive transmission means for transmitting the rotational driving force of the third rotating shaft to the second rotating shaft, and
A medium processing device. The medium processing device is
A feeding section for feeding out the medium accumulated in the medium stacking section is provided.
The medium processing apparatus according to claim 1. The feeding portion includes a picker roller pivotally supported by the third rotating shaft.
The medium processing apparatus according to claim 2. The payout portion includes a part or all of the outer peripheral surface of the drive transmission means.
The medium processing apparatus according to claim 2. The medium processing device is
A transport unit for transporting the medium is provided.
The medium processing apparatus according to claim 1. The transport unit includes a transport roller provided on the second rotating shaft.
The medium processing apparatus according to claim 5. The transport unit includes a part or all of the outer peripheral surface of the drive transmission means.
The medium processing apparatus according to claim 5. The feed roller feeds out the medium while sandwiching the medium with the separation roller.
The medium processing apparatus according to claim 1. A separation roller that is pivotally supported by the first rotation axis and separates and sends out media one by one.
An impeller provided on the outer peripheral surface of the first rotating shaft and hitting the medium with one or a plurality of blades to accumulate the medium in the medium accumulating portion.
A feed roller that is pivotally supported by a second rotating shaft arranged so as to avoid a position facing the impeller and is provided at a position facing the separation roller.
With
The second rotation axis is divided into a plurality of parts.
The feed roller is pivotally supported by each of the second rotating shafts divided into a plurality of parts .
Medium body processing apparatus. A separation roller that is pivotally supported by the first rotation axis and separates and sends out media one by one.
An impeller provided on the outer peripheral surface of the first rotating shaft and hitting the medium with one or a plurality of blades to accumulate the medium in the medium accumulating portion.
A feed roller that is pivotally supported by a second rotating shaft arranged so as to avoid a position facing the impeller and is provided at a position facing the separation roller.
With
The second rotating shaft is fixed to the traveling guide .
Medium body processing apparatus. A separation roller that is pivotally supported by the first rotating shaft and separates and sends out bills one by one.
An impeller having one or more blades provided on the outer peripheral surface of the first rotating shaft, and hitting the bills with the one or more blades to collect the bills in the bill collecting portion.
A feed roller that is pivotally supported by a second rotating shaft arranged so as to avoid a position facing the impeller and is provided at a position facing the separation roller.
Equipped with a,
The second rotating shaft is fixed to the traveling guide.
Cash processing device.

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