US20150187157A1 - Money handling apparatus - Google Patents
Money handling apparatus Download PDFInfo
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- US20150187157A1 US20150187157A1 US14/644,478 US201514644478A US2015187157A1 US 20150187157 A1 US20150187157 A1 US 20150187157A1 US 201514644478 A US201514644478 A US 201514644478A US 2015187157 A1 US2015187157 A1 US 2015187157A1
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- United States
- Prior art keywords
- unit
- money
- banknotes
- depositing
- dispensing
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- G07D11/0006—
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D11/00—Devices accepting coins; Devices accepting, dispensing, sorting or counting valuable papers
- G07D11/10—Mechanical details
- G07D11/12—Containers for valuable papers
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- G07D11/0051—
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D11/00—Devices accepting coins; Devices accepting, dispensing, sorting or counting valuable papers
- G07D11/20—Controlling or monitoring the operation of devices; Data handling
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D11/00—Devices accepting coins; Devices accepting, dispensing, sorting or counting valuable papers
- G07D11/20—Controlling or monitoring the operation of devices; Data handling
- G07D11/24—Managing the stock of valuable papers
- G07D11/25—Relocation of valuable papers within devices
Definitions
- the present invention relates to a money handling apparatus for depositing and/or dispensing money.
- Patent Document 1 discloses, for example, a depositing and dispensing machine which is placed in a teller counter of a bank, and is shared by two tellers on the right and left sides of the machine.
- the depositing and dispensing machine is a so-called circulating depositing and dispensing machine.
- the machine includes, in a casing, a depositing unit in which banknotes are introduced, a recognition unit configured to count and recognize the banknotes, an escrow unit configured to temporarily retain the recognized banknotes, a storage unit configured to store the banknotes retained in the escrow unit after the deposit of the banknotes is confirmed, and a dispensing unit which is provided with a shutter, and from which the banknotes fed from the storage unit are dispensed in dispensing.
- the depositing and dispensing machine performs the depositing in the following manner. Specifically, the banknotes are introduced in the depositing unit. Then, an operation for starting the predetermined depositing is performed. Then, the banknotes introduced in the depositing unit are fed one by one, and are recognized and counted by the recognition unit. The recognized banknotes are temporarily retained in the escrow unit. When the deposit of the banknotes is confirmed with all the banknotes introduced in the depositing unit fed and temporarily retained in the escrow unit, the banknotes temporarily retained in the escrow unit are stored in the storage unit. Thus, the depositing is finished.
- the banknotes temporarily retained in the escrow unit are not stored in the storage unit, but are returned to the depositing unit.
- the escrow unit may become full when a large amount of banknotes is deposited at a time.
- conventional depositing and dispensing machines may experience the following disadvantage. Specifically, when the escrow unit becomes full, the depositing cannot proceed. Accordingly, for example, a predetermined operation has to be performed to store the banknotes in the escrow unit in the storage unit. Then, when the storage unit is filled with the banknotes, the casing has to be opened to expose the storage unit outside to remove the banknotes stored in the storage unit.
- the teller has to carry out a certain operation to take care of the apparatus every time when the escrow unit or the storage unit becomes full, which is troublesome to the teller. Further, the depositing is interrupted every time when the teller carries out the operation, thereby increasing time required for the depositing. This increases customers′waiting time, and decreases efficiency of transactions at teller's windows.
- Patent Document 3 discloses a banknote processing machine including a depositing unit, a recognition unit, and a stacking unit configured to stack the banknotes which are introduced in the depositing unit, and are recognized by the recognition unit.
- the stacking unit is open outside the casing, and the banknotes stacked therein can easily be removed by hand.
- the banknotes stacked in the stacking unit can quickly be removed by hand before, or immediately after the stacking unit becomes full. This can avoid interruption of the depositing, or allows easy restart of the depositing, if interrupted. This can reduce a period for the interruption as much as possible.
- this machine is merely a banknote processing machine which does not include the storage unit configured to store the banknotes, and cannot perform the depositing and the dispensing.
- Such a disadvantage is not particular to the depositing/dispensing of the banknotes in/from the depositing and dispensing machine.
- the same disadvantage may occur in depositing and dispensing coins.
- Patent Document 1 Japanese Patent Publication No. 2003-30714
- Patent Document 2 Japanese Patent Publication No. H07-234955
- Patent Document 3 Japanese Patent Publication No. 2000-259882
- An object of the invention is to increase efficiency of at least the depositing, or at least the dispensing performed by the money handling apparatus.
- a money handling apparatus for performing at least depositing includes: a casing; a depositing unit including a feeding mechanism configured to feed one by one money introduced therein; a recognition unit configured to at least count or recognize the money fed from the depositing unit; an inner storage unit configured to store the money handled by the recognition unit, the money stored therein being unremovable directly from the outside of the casing; an outer stacking unit configured to stack the money handled by the recognition unit, the money stacked therein being removable directly from the outside of the casing; a transport unit configured to transport the money among the depositing unit, the recognition unit, the inner storage unit, and the outer stacking unit; and a controller configured to control the depositing unit, the recognition unit, the inner storage unit, the outer stacking unit, and the transport unit to selectively transport the money handled by the recognition unit to the inner storage unit, or the outer stacking unit.
- a first deposit mode or a second deposit mode is selectable as a mode for the depositing
- the controller allows transport of the money handled by the recognition unit to the inner storage unit to be stored in the inner storage unit when the first deposit mode is selected by a selection signal, or the controller allows transport of the money handled by the recognition unit to the outer stacking unit to be stacked in the outer stacking unit when the second deposit mode is selected by the selection signal.
- the money which is recognized, and/or counted by the recognition unit are selectively transported to the outer stacking unit, or the inner storage unit.
- the money stored in the inner storage unit is unremovable directly from the outside of the casing, i.e., the money cannot be removed unless the casing is opened, for example.
- the money stacked in the outer stacking unit is removable directly from the outside of the casing.
- the second deposit mode is a mode for depositing a large amount of money
- the money handled by the recognition unit is transported to the outer stacking unit, and is stacked therein. Therefore, the money stacked in the outer stacking unit can easily be removed before, or even after the outer stacking unit becomes full. This can avoid interruption of the depositing, or allows easy restart of the depositing, if interrupted, thereby reducing a period for the interruption as much as possible.
- the first deposit mode is a mode for depositing the money in an amount which does not fill the inner storage unit (or the escrow unit)
- the inner storage unit (or the escrow unit) does not become full during the depositing in the first deposit mode, and the depositing is not interrupted.
- efficiency of the depositing is less likely to decrease in any mode.
- a money handling apparatus for performing at least depositing includes: a casing; a depositing unit including a feeding mechanism configured to feed one by one money introduced therein; a recognition unit configured to at least count or recognize the money fed from the depositing unit; an inner storage unit configured to store the money handled by the recognition unit, the money stored therein being unremovable directly from the outside of the casing; an outer stacking unit configured to stack the money handled by the recognition unit, the money stacked therein being removable directly from the outside of the casing; a transport unit configured to transport the money among the depositing unit, the recognition unit, the inner storage unit, and the outer stacking unit; and a controller configured to control the depositing unit, the recognition unit, the inner storage unit, the outer stacking unit, and the transport unit to selectively transport the money handled by the recognition unit to the inner storage unit, or the outer stacking unit.
- the controller is connected to a destination designating unit configured to designate a destination of the money based on a kind of the money, and is capable of receiving a designating signal from the destination designating unit.
- a destination designating unit configured to designate a destination of the money based on a kind of the money
- the controller allows transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the outer stacking unit, to the outer stacking unit to be stored therein
- the controller allows transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the inner storage unit, to the inner storage unit to be stored therein.
- the interruption of the depositing is avoided, and the depositing can easily be restarted, if interrupted, thereby reducing a period for the interruption as much as possible.
- the money is sorted by kind, thereby improving convenience. This is effective for depositing a certain kind of the money to be sorted, i.e., money of a certain denomination, fit money, unfit money, money of national currency, money of foreign currency, etc. For example, this is effective for depositing the money in which a certain kind of the money is relatively larger in amount than the other kinds of the money.
- the controller may allow transport of the money handled by the recognition unit to the outer stacking unit to be stacked therein when a predetermined amount of the money has been stored in the inner storage unit.
- the money handling apparatus may further include: a memory configured to store the numbers of different kinds of the deposited money, wherein the memory stores at least one of the numbers of the different kinds of the money stored in the inner storage unit, or the numbers of the different kinds of the money stacked in the outer stacking unit.
- the money handling apparatus may further include: a dispensing unit configured to dispense the money handled by the recognition unit, wherein the controller allows feeding of the money stored in the inner storage unit, and dispensing of the fed money to the dispensing unit as the dispensing.
- the outer stacking unit may be capable of storing a larger amount of the money than an amount of the money storable in the depositing unit.
- the money which is recognized and/or counted by the recognition unit is selectively transported to the outer stacking unit, or the dispensing unit.
- the outer stacking unit has a larger capacity than the capacity of the dispensing unit, and the money stacked therein is removable directly from the outside of the casing. Therefore, the outer stacking unit can stack a large amount of money, and allows easy removal of the money stacked therein.
- the money handled by the recognition unit is transported to the outer stacking unit, and is stacked therein. This can avoid interruption of the dispensing, or allows easy restart of the dispensing, if interrupted, thereby reducing a period for the interruption as much as possible.
- a first dispense mode or a second dispense mode is selectable as a mode for the dispensing, and the controller allows transport of the money handled by the recognition unit to the dispensing unit when the first dispense mode is selected by a selection signal, or allows transport of the money handled by the recognition unit to the outer stacking unit when the second dispense mode is selected by the selection signal.
- the first dispense mode is a mode for dispensing the money in an amount which does not fill the dispensing unit, for example, the dispensing unit does not become full during the dispensing, and the dispensing is not interrupted in the first dispense mode.
- the money is stacked in the outer stacking unit.
- the controller may be connected to a destination designating unit configured to designate a destination of the money based on a kind of the money, and is capable of receiving a designating signal from the destination designating unit.
- the controller may allow transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the outer stacking unit, to the outer stacking unit, and the controller may allow transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the dispensing unit, to the dispensing unit.
- the money is sorted by kind, thereby improving convenience.
- This is effective for dispensing a certain kind of the money to be sorted, i.e., money of a certain denomination, fit money, unfit money, money of national currency, money of foreign currency, etc.
- this is particularly effective for dispensing the money in which a certain kind of the money is relatively larger in amount than the other kinds of the money.
- the outer stacking unit may be divided into a plurality of stacking regions configured to stack the money, respectively, and a capacity ratio between the plurality of stacking regions may be variable.
- the money stacked in the outer stacking unit can be sorted by kind, i.e., denomination, whether the money is fit or unfit, etc. Further, the space of the outer stacking unit can efficiently be used, thereby improving convenience.
- the outer stacking unit may be separated from the casing, and may detachably be attached to the casing. With this configuration, the outer stacking unit can be retrofitted to the casing. Thus, the outer stacking unit can be retrofitted as needed.
- the depositing or dispensing is not interrupted, or the depositing or dispensing, if interrupted, can easily be restarted, thereby reducing a period for the interruption as much as possible. This can improve efficiency in handling the money.
- FIG. 1 is a perspective view illustrating the general structure of a banknote depositing and dispensing machine.
- FIG. 2 is a perspective view illustrating the depositing and dispensing machine in use.
- FIG. 3 is a schematic view illustrating the inner structure of the depositing and dispensing machine.
- FIG. 4 is a block diagram illustrating the structure associated with control of the depositing and dispensing machine.
- FIG. 5 is a view illustrating a transport path of banknotes deposited in a normal handling mode (a first deposit mode).
- FIG. 6 is a view illustrating a transport path of the banknotes deposited in a bulk handling mode (a second deposit mode).
- FIG. 7 is a view illustrating a transport path of the banknotes deposited when denominations of the banknotes are designated.
- FIG. 8 is a view illustrating a transport path of the banknotes dispensed in a normal handling mode (a first dispense mode).
- FIG. 9 is a view illustrating a transport path of the banknotes dispensed in a bulk handling mode (a second dispense mode).
- FIG. 10 is a schematic view illustrating another structure of the depositing and dispensing machine.
- FIG. 11 is a schematic view illustrating still another structure of the depositing and dispensing machine.
- FIG. 12 is a schematic view illustrating the inner structure of a coin depositing and dispensing machine.
- FIG. 1 is a perspective view illustrating a depositing and dispensing machine 1 as an example of a money handling apparatus.
- the depositing and dispensing machine 1 is substantially in the shape of a rectangular box having a relatively short width, and a relatively long depth.
- the depositing and dispensing machine 1 is placed in a teller counter of a bank, and is shared by two tellers on the right and left sides of the depositing and dispensing machine 1 .
- Two higher-ranking terminals 6 used by the right and left tellers, respectively, are connected to the depositing and dispensing machine 1 .
- the tellers use the depositing and dispensing machine 1 by operating the higher-ranking terminals 6 , respectively.
- a casing 11 of the depositing and dispensing machine 1 is roughly divided into an upper body 11 a and a lower safe unit 11 b
- the body 11 a includes a depositing unit 211 having an inlet 210 through which banknotes are introduced, a dispensing unit 213 having an outlet through which the banknotes are dispensed, a recognition unit 214 configured to recognize the banknotes, an escrow unit 215 configured to temporarily retain the recognized banknotes in the depositing, and a transport unit 4 which includes a transport path mutually connecting the depositing unit 211 , the dispensing unit 213 , the recognition unit 214 , and the escrow unit 215 , and transports the banknotes through the transport path in a long edge feed manner.
- the safe unit 11 b includes an inner storage unit 3 configured to store the banknotes.
- the depositing and dispensing machine 1 is configured to be a so-called circulating depositing and dispensing machine 1 . Specifically, the depositing and dispensing machine 1 stores the banknotes in the inner storage unit 3 in the depositing, and feeds and dispenses the banknotes stored in the inner storage unit 3 in the dispensing.
- the depositing and dispensing machine 1 further includes a communication unit 22 configured to transmit and receive data to and from the higher-ranking terminals 6 through communication lines, a display 23 which is arranged in the lateral center of an upper surface of the casing 11 to display various types of information, an operation unit 24 which is operated by the tellers, a memory 26 configured to store various types of data etc., and a controller 25 configured to control the above-described units 211 - 215 , 22 - 24 , 26 , and 3 - 5 .
- the operation unit 24 includes a left occupation switch 241 arranged at a left end of the upper surface of the casing 11 , and a right occupation switch 242 arranged at a right end of the upper surface of the casing 11 .
- the two tellers share the depositing and dispensing machine 1 , but they cannot use the machine at the same time.
- the left occupation switch 241 or the right occupation switch 242 is operated when the left or right teller uses the depositing and dispensing machine 1 .
- the left occupation switch 241 is operated, the left teller is allowed to use the depositing and dispensing machine 1 .
- the right occupation switch 242 When the right occupation switch 242 is operated, the right teller is allowed to use the depositing and dispensing machine 1 .
- the selection may be performed through the higher-ranking terminals 6 .
- the memory 26 stores at least an inventory amount in the machine indicating the respective numbers of the banknotes of different denominations stored in the inner storage unit 3 (a cassette 30 and stackers 31 - 34 described below), a deposit amount representing the respective numbers of the banknotes of different denominations deposited in the depositing, an inner deposit amount representing the respective numbers of the banknotes of different denominations stored in the inner storage unit 3 in the depositing, and an outer deposit amount representing the respective numbers of the banknotes of different denominations stacked in an outer stacking unit 5 described below in the depositing.
- the memory 26 may store the inventory amount, the deposit amount, the inner deposit amount, and the outer deposit amount each indicating the respective numbers of the banknotes sorted by kind of the banknotes except for the denomination, i.e., whether the banknotes are fit or unfit, whether the banknotes are of national currency or foreign currency, etc.
- the banknotes may be sorted by two or more kinds, for example, the denomination and whether the banknotes are fit or unfit, etc.
- an outer stacking unit 5 configured to stack the banknotes is detachably attached to a rear part of the upper surface of the casing 11 .
- the outer stacking unit 5 of the present embodiment is configured as a single component, and therefore, the outer stacking unit 5 may be referred to as a stacking unit 5 .
- the structure of the stacking unit 5 will be described in detail below.
- the inlet 210 is a port in which a stack of a plurality of banknotes is introduced. As shown in FIG. 1 , the inlet 210 is horizontally oriented, and is opened upward in the upper surface of the casing 11 .
- the inlet 210 includes a shutter configured to open and close the inlet. In FIG. 1 , the shutter is open, and the inlet 210 is open.
- the depositing unit 211 includes a mechanism configured to feed one by one the plurality of banknotes introduced in the inlet 210 . In the present embodiment, the depositing unit 211 is configured to be able to contain about 100-200 banknotes. However, the capacity of the depositing unit 211 is not limited thereto.
- the dispensing unit 213 dispenses the banknotes fed from the inner storage unit 3 in the dispensing, and returns the banknotes which are recognized as unacceptable by the recognition unit 214 , e.g., rejected notes etc., in the depositing.
- the outlet 212 is horizontally oriented, and is opened upward in the upper surface of the casing 11 to be positioned forward of the inlet 210 .
- the outlet 212 includes a shutter configured to open and close the outlet. In FIG. 1 , the shutter is opened, and the outlet 212 is opened.
- the dispensing unit 213 is configured to be able to contain about 100-200 banknotes. However, the capacity of the dispensing unit 213 is not limited thereto.
- the recognition unit 214 recognizes at least whether each of the banknotes fed from the depositing unit 211 is genuine or counterfeit, the denomination of each banknote, and whether each banknote is fit or unfit. Simultaneously, the recognition unit 214 counts the banknotes. When the depositing and dispensing machine 1 is configured to be able to handle currencies of different countries, the recognition unit 214 is configured to be able to recognize the kinds of each of the currencies.
- the escrow unit 215 temporarily retains the banknotes which are recognized by the recognition unit 214 , and are transported to the escrow unit.
- the escrow unit 215 can be considered as part of the inner storage unit because the escrow unit stores the banknotes.
- the banknotes temporarily retained in the escrow unit 215 are stored in the inner storage unit 3 , or returned to the inlet according to the operation performed by the teller as described below.
- the escrow unit 215 in this apparatus is a so-called tape winding stacker.
- the tape winding stacker is configured to store the banknotes by winding two tapes 217 sandwiching the fed banknotes on a rotation reel 218 , and to feed the banknotes by rewinding the rotation drum 218 .
- the tape winding stacker used as the escrow unit 215 may be replaced with a stacker of a different type capable of storing and feeding the banknotes.
- the escrow unit 215 is configured to be able to contain about 200-400 banknotes.
- the capacity of the escrow unit 215 is not limited thereto.
- the inner storage unit 3 includes a single cassette 30 , and first to fourth stackers 31 - 34 .
- the number of the cassette and stackers is not limited thereto.
- the number of the cassette and stackers in the inner storage unit 3 can optionally be selected.
- each of the stackers 31 - 34 is configured to be able to contain about 1000-2000 banknotes.
- the capacity of the stackers is not limited thereto.
- the safe unit 11 b has an open front surface, and an open/close door is attached to the open front surface.
- the cassette 30 and the stackers 31 - 34 of the inner storage unit 3 are configured to be drawn forward when the door is opened.
- the banknotes stored in the inner storage unit 3 are unremovable directly from the outside of the casing 11 .
- the cassette 30 can store and feed the banknotes, and is detachably attached to the inner storage unit 3 to be positioned forwardmost in the direction of the depth of the apparatus.
- the cassette 30 stores overflowed banknotes which cannot be stored in the first to fourth stackers 31 - 34 which have become full, unfit banknotes which are recognized by the recognition unit 214 as those which can be deposited, but cannot be dispensed because of their stains or tears, and rejected banknotes which cannot be dispensed because they cannot be recognized by the recognition unit 214 in the dispensing, etc. Currencies of different countries can be stored in the cassette 30 .
- banknotes in the cassette 30 are transported to the stackers 31 - 34 , and are stored therein.
- the banknotes stored in the stackers 31 - 34 are stored in the cassette 30 , and the cassette is removed from the depositing and dispensing machine 1 .
- the first to fourth stackers 31 - 34 can store and feed the banknotes, respectively, and are arranged from the front to the rear behind the cassette 30 in the depth direction of the apparatus.
- the first to fourth stackers 31 - 34 store the banknotes of different denominations, respectively.
- the transport unit 4 includes a looped transport path 41 which is looped in the casing 11 .
- the banknotes are transported in the looped transport path 41 in the forward direction (a clockwise direction in FIG. 3 ), and in the reverse direction (a counterclockwise direction in FIG. 3 ).
- the recognition unit 214 is provided in the looped transport path 41 .
- the above-described units 211 , 213 , 215 , and 3 except for the recognition unit 214 are connected to the looped transport path 41 to be diverted therefrom.
- the depositing unit 211 is connected to the looped transport path 41 through a deposit transport path 42
- the dispensing unit 213 is connected to the looped transport path 41 through a dispense transport path 43
- the escrow unit 215 is connected to the looped transport path 41 through an escrow transport path 44 .
- the cassette 30 of the inner storage unit is connected to the looped transport path 41 through a cassette transport path 45 and a reject transport path 46 .
- the first to fourth stackers 31 - 34 are connected to the looped transport path 41 through first to fourth stacker transport paths 471 - 474 , respectively.
- Diverters 48 a , 48 b are arranged at diversion points between the looped transport path 41 and the transport paths diverted from the looped transport path 41 .
- the diverter 48 a can sort the banknotes transported from a single transport path to be transported in two directions.
- the diverter 48 b can sort the banknotes transported from a plurality of transport paths to be transported in two directions (see, e.g., Japanese Patent No. 274225).
- the controller 25 controls the diverters 48 a , 48 b , thereby sorting the banknotes in the suitable transport directions. Details of the diversion will be described below.
- a first transport path 49 and a second transport path 410 connected to the stacking unit 5 are connected to parts of the looped transport path 41 forward and rearward of the recognition unit 214 , respectively, to be diverted from the looped transport path 41 .
- the diverters 48 a are provided at the diversion points.
- the structure of the transport unit 4 is not limited to the above structure, and various types of structures can be used.
- the stacking unit 5 is a unit configured to be attachable to the upper surface of the casing 11 .
- the stacking unit 5 includes a stacking recess 51 extending in the depth direction of the machine.
- the banknotes 100 are stacked in the stacking recess 51 to be aligned in the depth direction of the casing 11 .
- the stacked banknotes are exposed outside the casing 11 .
- the stacked banknotes can easily be removed directly from the outside of the casing 11 without opening the casing 11 (the safe unit 11 b ). That is, the inner storage unit 3 and the escrow unit 215 are closed stackers, while the stacking unit 5 is an open stacker.
- the stacking recess 51 of the stacking unit 5 is relatively long in the depth direction.
- the stacking unit 5 is configured to be able to contain about 500-1000 banknotes.
- the capacity of the stacking unit 5 is larger than the capacities of the depositing unit 211 and the dispensing unit 213 .
- An outlet through which the banknotes are dispensed is formed in a rearmost portion of the stacking recess 51 (a right portion in FIG. 3 ), and stacking wheels 52 which tap the banknotes dispensed through the outlet are provided in the outlet.
- a guide plate 53 which is movable in a direction in which the banknotes are stacked (in the depth direction) is attached to the stacking recess 51 , and a guiding belt (not shown) is provided on the bottom of the stacking recess. As schematically shown in FIG.
- the banknotes 100 dispensed to the stacking recess 51 through the outlet are aligned from the rear to the front of the stacking recess while supported by the guiding belt, and a guiding plate 53 which moves appropriately with the guiding belt (see an arrow shown in FIG. 3 ).
- an in-unit transport path 54 configured to transport the banknotes is provided in the stacking unit 5 .
- An end of the in-unit transport path 54 is an opening constituting the outlet, and the other end is a connection end which is connected to the first transport path 49 and the second transport path 410 when the stacking unit 5 is attached to the casing 11 .
- the outlet may be connected to the transport path of the casing.
- the depositing and dispensing machine 1 performs at least depositing of the banknotes, dispensing of the banknotes, refilling the inner storage unit 3 with the banknotes, and collecting the banknotes from the inner storage unit 3 .
- the depositing and the dispensing have two modes, i.e., a normal handling mode, and a bulk handling mode.
- the normal handling mode is selected when the number of banknotes deposited or dispensed is relatively small
- the bulk handling mode is selected when the number of banknotes deposited or dispensed is relatively large.
- the bulk handling mode is a mode for handling more banknotes than those storable in the escrow unit 215 or the dispensing unit 213 .
- the normal handling mode is a mode for handling fewer banknotes than those storable in the escrow unit 215 or the dispensing unit 213 .
- the bulk handling mode may be employed to sort the banknotes of a certain kind. Selection of the depositing, the dispensing, the refilling, or the collecting, or selection of the normal handling mode or the bulk handling mode can be done based on an operation designating signal or a selection signal input from the higher-ranking terminal 6 to the depositing and dispensing machine 1 by operating the higher-ranking terminal 6 .
- the depositing in the normal handling mode (a first deposit mode) will be described below.
- the banknotes introduced in the inlet 210 are fed one by one, pass through the deposit transport path 42 , and travel through the looped transport path 41 in the forward direction to reach the recognition unit 214 .
- the recognition unit 214 recognizes and counts the banknotes. Based on the recognition result, the banknotes which can be deposited travel through the looped transport path 41 in the forward direction as indicated by arrows in FIG. 5 to reach the escrow unit 215 through the escrow transport path 44 .
- the banknotes which cannot be deposited are transported from the looped transport path 41 to the outlet 212 through the dispense transport path 43 , or to the cassette 30 through the reject transport path 46 .
- the count of the banknotes is displayed on the higher-ranking terminal 6 , and an operation for confirming the deposit of the banknotes is performed by operating the higher-ranking terminal 6 .
- the banknotes temporarily retained in the escrow unit 215 are fed.
- the fed banknotes travel through the looped transport path 41 in the forward direction, and pass through the first to fourth stacker paths 471 - 474 to be stored in the first and fourth stackers 31 - 34 , while the banknotes are sorted by denomination.
- the banknotes may directly be stored in the first to fourth stackers 31 - 34 . In this case, the operation for confirming the deposit of the banknotes is not necessary.
- the banknotes introduced in the inlet 210 are fed one by one, and are transported to the recognition unit 214 through the deposit transport path 42 and the looped transport path 41 . This is the same as the normal handling mode. Then, the recognition unit 214 recognizes and counts the banknotes.
- the banknotes which can be deposited are transported from the looped transport path 41 to the stacking unit 5 through the second transport path 410 and the in-unit transport path 54 as indicated by arrows in FIG. 6 , and are stacked in the stacking recess 51 .
- the capacity of the stacking unit 5 is relatively large. Therefore, in depositing a large amount of banknotes, the stacking recess 51 does not become full, and the depositing is not interrupted.
- the banknotes stacked in the stacking recess 51 can easily be removed directly from the outside of the casing 11 .
- the depositing will continue without interruption when the teller removes the banknotes stacked in the stacking recess 51 before the stacking recess 51 becomes full.
- the depositing can easily be restarted when the teller removes the stacked banknotes.
- the banknotes introduced in the inlet 210 When all the banknotes introduced in the inlet 210 are fed, the count of the banknotes is displayed on the higher-ranking terminal 6 , and the operation for confirming the deposit of the banknotes, for example, is performed. In the bulk handling mode, the banknotes are removed from the stacking recess 51 , and are stored in, for example, a safe different from the depositing and dispensing machine 1 .
- the banknotes which are recognized by the recognition unit 214 as those which cannot be deposited are transported from the looped transport path 41 to the outlet 212 through the dispense transport path 43 , or to the cassette 30 through the reject transport path 46 . This is the same as the normal handling mode.
- the two modes are referred to as the “bulk handling mode,” and the “normal handling mode,” but these are merely examples.
- the depositing configured to stack the banknotes in the outer stacking unit 5 is not limited to handling of a large amount of banknotes at a time.
- depositing of the banknotes when a predetermined kind of the banknotes will be described with reference to FIG. 7 .
- the banknotes introduced in the inlet 210 are fed one by one, and are transported to the recognition unit 214 through the deposit transport path 42 and the looped transport path 41 .
- the recognition unit 214 recognizes and counts the banknotes.
- the banknotes of the designated denomination are transported from the looped transport path 41 to the stacking unit 5 through the second transport path 410 as indicated by solid arrows in FIG. 7 .
- the banknotes of the designated denomination are stacked in the stacking recess 51 .
- the banknotes of the denominations except for the designated denomination are transported from the looped transport path 41 to the escrow unit 215 through the escrow transport path 44 as indicated by dot-dash arrows in FIG. 7 .
- the count of the banknotes is displayed on the higher-ranking terminal 6 .
- the higher-ranking terminal 6 is operated to confirm the deposit of the banknotes, although not shown, the banknotes temporarily retained in the escrow unit 215 are fed to be stored in the first to forth stackers 31 - 34 , while the banknotes are sorted by denomination as described above.
- the banknotes stacked in the stacking recess 51 are removed by the teller, and are stored in a safe different from the depositing and dispensing machine 1 .
- Designating the denomination is particularly advantageous when the number of the banknotes to be deposited exceeds the number of the banknotes which can be stored in the escrow unit 215 .
- the banknotes are conveniently sorted by denomination. For example, in selecting the bulk handling mode through the higher-ranking terminal 6 , the denomination of the banknotes to be stacked in the stacking unit 5 may optionally be designated. The denomination can be designated also in the normal handling mode.
- the selection of the normal handling mode or the bulk handling mode, or the designation of the denomination of the banknotes to be stacked in the stacking unit 5 can be performed by operating the higher-ranking terminal 6 .
- the teller can suitably determine which handling mode should be selected after checking the amount of the banknotes to be deposited.
- the denomination of the banknotes to be stored in the inner storage unit 3 may be designated.
- the normal handling mode when the normal handling mode is selected, and the escrow unit 215 becomes full while the banknotes are sequentially fed to the escrow unit 215 to be temporarily retained therein, the rest of the banknotes may be transported to the stacking unit 5 in place of the escrow unit 215 .
- the normal handling mode when the depositing is being performed, the normal handling mode may automatically be changed to the bulk handling mode. Thus, even when the escrow unit 215 becomes full, the depositing can continue without interruption.
- the temporarily retained banknotes are fed from the escrow unit 215 to be stacked in the stacking recess 51 after all the banknotes in the inlet 210 are fed. Specifically, all the banknotes to be deposited may be stacked in the stacking recess 51 .
- the depositing and dispensing machine which does not include the escrow unit 215 , whether the deposited banknotes are directly transported to the first to fourth stackers 31 - 34 , or are stacked in the stacking unit 5 may be selected.
- the selection of the normal handling mode or the bulk handling mode, and the designation of the denomination of the banknotes to be stacked in the stacking unit 5 can be performed in the same manner as in the depositing and dispensing machine including the escrow unit 215 .
- the capacity of the stacking unit 5 is preferably twice or more as large as the capacity of the depositing unit 211 .
- the banknotes at least twice as many as the banknotes which can be deposited in the depositing unit at a time can all be stacked in the stacking unit 5 . This can reduce the frequency of the removal of the banknotes from the stacking unit 5 , thereby saving time and labor of the teller.
- the capacity of the stacking unit 5 is preferably twice or more as large as the capacity of the escrow unit 215 .
- the banknotes at least twice as many as the banknotes which can be temporarily retained in the escrow unit at a time can all be stacked in the stacking unit 5 , although depositing of such a large amount of banknotes involves storing a set of the banknotes which filled the escrow unit in the storage part, and retaining another set of the banknotes in the escrow unit, if the capacity of the stacking unit 5 is not twice or more as large as the capacity of the escrow unit. This can save time required for the storing of the banknotes in the storage part, thereby reducing transaction time.
- the memory 26 a stores the deposit amount representing the respective numbers of the banknotes of different denominations deposited in the depositing and dispensing machine 1 , the inner deposit amount representing the respective numbers of the banknotes of different denominations stored in the inner storage unit 3 , and the outer deposit amount representing the respective numbers of the banknotes of different denominations stacked in the outer stacking unit 5 .
- the inner deposit amount is added to the inventory amount, thereby updating the inventory amount.
- Information of the outer deposit amount is sent to the higher-ranking terminal 6 or a different higher-ranking device through the communication unit 22 . The information can be sent every time when the depositing is performed, regularly, or when requested by the higher-ranking device.
- Both of the inner deposit amount and the outer deposit amount may be stored at any time.
- the banknotes are not stored in the inner storage unit 3 , or not stacked in the outer stacking unit 5 , only the inner deposit amount of the inner storage unit 3 , or the outer deposit amount of the outer stacking unit 5 to which the banknotes are transported may be stored in the memory.
- customer information including an account number, and setting information of the depositing and dispensing machine 1 may be associated with each other, and the associated information may be stored in a customer information database (not shown) to which the higher-ranking terminal 6 is connected.
- the selection of the handling mode and the designation of the denomination can automatically be performed based on the information stored in the database. For example, some customers may always deposit many banknotes, or always deposit many banknotes of a particular denomination due to their occupations. In such cases, the setting of the depositing and dispensing machine 1 can automatically be changed to the setting for customized depositing by merely inputting the account number. This significantly improves convenience.
- the denomination of the banknotes has been described as the kind of the banknotes.
- the banknotes may be sorted by whether they are fit or unfit, or whether they are of national currency or foreign currency, etc. For example, when many of the deposited banknotes are unfit banknotes not suitable for the dispensing, or when many of the deposited banknotes are in foreign currency, such many banknotes may advantageously be designated.
- a unit for identifying the customer is not limited to the account number input to the higher-ranking terminal 6 .
- the customer may be identified by reading a card possessed by the customer.
- the dispensing in the normal handling mode (a first dispense mode) will be described below with reference to FIG. 8 .
- the banknotes stored in the inner storage unit 3 are fed, and travel through the looped transport path 41 in the reverse direction to reach the recognition unit 214 .
- the banknotes handled by the recognition unit 214 are transported from the looped transport path 41 to the outlet 212 through the dispense transport path 43 (see arrows in FIG. 8 ).
- the banknotes fed from the inner storage unit 3 are handled by the recognition unit 214 , are transported to the stacking unit 5 through the first transport path 49 , and are stacked in the stacking recess 51 .
- the capacity of the stacking unit 5 is larger than the capacity of the dispensing unit 213 .
- the dispensing can continue when the teller removes the banknotes stacked in the stacking recess 51 before the stacking recess 51 becomes full. Even when the stacking recess 51 has become full, the dispensing can easily be restarted when the teller removes the stacked banknotes.
- the capacity of the stacking unit 5 is preferably twice or more as large as the capacity of the dispensing unit 213 .
- the banknotes which are many, and have to be removed from the dispensing unit 213 at at least two times, can all be removed from the stacking unit 5 at a time.
- time required for the dispensing is less likely to increase even when a large amount of banknotes are dispensed at a time, thereby improving efficiency of the dispensing.
- the banknotes of the designated denomination are transported to the stacking unit 5 through the first transport path 49 after being handled by the recognition unit 214 , while the banknotes of the other denominations are transported to the dispensing unit 213 through the dispense transport path 43 .
- the banknotes can be sorted by denomination, and a large amount of the banknotes of the designated denomination can be dispensed with improved efficiency.
- the denomination of the banknotes to be transported to the dispensing unit 213 can also be designated.
- the amount of the banknotes to be dispensed is determined by operating the higher-ranking terminal 6 , or if necessary, the numbers of the banknotes of different denominations are determined by operating the higher-ranking terminal 6 .
- the number of the banknotes to be dispensed is determined in advance. Therefore, the selection of the normal handling mode or the bulk handling mode, and the designation of the denomination of the banknotes to be stacked in the stacking unit 5 are not performed based on the operation for selection or designation through the higher-ranking terminal 6 , but can automatically be performed based on the amount of the banknotes to be dispensed, or the designated numbers of the banknotes of different denominations.
- the numbers of the banknotes of the different denominations are subtracted from the inventory amount, thereby updating the inventory amount.
- the denomination of the banknotes has been described as the kind of the banknotes.
- the banknotes may be sorted by whether they are fit or unfit, or whether they are of national currency or foreign currency, etc. For example, this is effective for dispensing or collecting the banknotes sorted by kind, i.e., whether they are fit or unfit, or whether they are of national currency or foreign currency, from the dispensing unit 213 or the outer stacking unit 5 .
- the depositing unit 211 and the dispensing unit 213 are not limited to separate units.
- the depositing unit 211 and the dispensing unit 213 may be a single port as a depositing/dispensing unit.
- the outer stacking unit 5 is configured as the stacking unit 5 which is retrofitted to the casing 11 .
- This structure is advantageous because the stacking unit 5 can be retrofitted to the depositing and dispensing machine 1 as needed according to change of the target to be handled, or the customer's request.
- the outer stacking unit 5 is not necessarily configured to be retrofitted to the casing. That is, the outer stacking unit 5 may be configured to be inseparable from the casing 11 .
- the structure of the outer stacking unit is not limited to the above-described structure, and various types of structures can be employed. A different structure of the outer stacking unit will be described below with reference to the drawings.
- FIG. 10 shows a stacking recess 71 of an outer stacking unit 7 , which is divided into two regions, i.e., a rearward region 71 a , and a forward region 71 b , by a divider 73 .
- the outer stacking unit 7 is inseparable from the casing 11 .
- the outer stacking unit 7 may be configured as a stacking unit which can be retrofitted to the casing 11 .
- outlets through each of which the banknotes are dispensed are formed in a rear end of the stacking recess 71 (a right end in FIG. 10 ), and a front end of the stacking recess 71 (a left end in FIG. 10 ), respectively, and stacking wheels 72 which tap the banknotes dispensed through the outlets are provided in the outlets.
- guide plates 74 configured to support the banknotes are attached to be movable in the stacking direction of the banknotes.
- the divider 73 is configured to be automatically or manually movable in the stacking direction (in the depth direction) in the stacking recess 71 . Changing the position of the divider 73 can change the capacity ratio between the rearward region 71 a and the forward region 71 b.
- a first transport path 49 is connected to the front outlet of the outer stacking unit 7
- a second transport path 410 is connected to the rear outlet of the outer stacking unit 7 .
- the first and second transport paths 49 , 410 are coupled to each other through a coupling transport path 411 and diversion mechanisms 48 b .
- the banknotes traveling from the front of the recognition unit 214 to the outer stacking unit 7 can be fed to both of the rearward region 71 a and the forward region 71 b .
- the banknotes traveling from the back of the recognition unit 214 to the outer stacking unit 7 can also be fed to both of the rearward region 71 a and the forward region 71 b.
- the banknotes can be sorted in the depositing and the dispensing, for example, by denomination, whether they are fit or unfit, or currency (whether the banknotes are of national currency or foreign currency) in the outer stacking unit 7 . This improves convenience.
- the depositing and dispensing machine 1 checks the position of the divider 73 to understand the capacity ratio between the stacking regions, and performs the control according to the capacity ratio. For example, the dispensing may be suspended when the banknotes may possibly exceed the capacities of the stacking regions. When one of the stacking regions is likely to become full during the dispensing, the position of the divider 73 is automatically changed to change the capacity ratio to continue the dispensing.
- the position of the divider 73 may be preset in association with the customer information.
- the position of the divider 73 may automatically be changed, and the denomination of the banknotes to be stacked in the stacking regions may automatically be designated.
- the position of the divider 73 may also be changed based on the number of the banknotes to be dispensed.
- FIG. 11 shows another different structure of the outer stacking unit.
- An outer stacking unit 8 includes two stacking regions 81 and 82 each of which stacks the banknotes in the vertical direction.
- the stacking regions 81 , 82 have openings which are opened in the right and left sides of the casing 11 , respectively.
- the tellers on the right and left sides of the depositing and dispensing machine 1 can remove the banknotes from the right and left openings (outlets).
- the banknotes can advantageously be sorted in the outer stacking unit as described above.
- the two stacking regions 81 , 82 are provided in the illustrated example, the number of the stacking regions is not particularly limited.
- speed at which the banknotes are transported in the normal handling mode, and speed at which the banknotes are transported in the bulk handling mode may be different from each other.
- the transport speed in the bulk handling mode may be higher than the transport speed in the normal handling mode. This is advantageous because time required for handling a large amount of banknotes in the bulk handling mode, which is originally long, can be reduced.
- the depositing and dispensing machine described above is a banknote depositing and dispensing machine.
- the present invention can be applied to a coin depositing and dispensing machine.
- FIG. 12 shows the coin depositing and dispensing machine.
- the coin depositing and dispensing machine 10 includes a depositing unit 1211 having an inlet 1210 through which coins are introduced, a recognition unit 1214 configured to recognize and count the coins, a dispensing unit 1213 having an dispense box 1212 to which the coins are dispensed, an inner storage unit 1003 configured to store the coins, and a transport unit 1004 configured to transport the coins among the above-described units.
- a feeding belt 1041 configured to feed the introduced coins one by one is arranged on the bottom of the inlet 1210 , and a recognition transport path 1042 is arranged to continue from the feeding belt.
- the recognition unit 1214 is arranged in the recognition transport path 1042 .
- a reject gate 1043 having an open/close mechanism (not shown) is arranged in the recognition transport path 1042 downstream of the recognition unit 1214 to divert reject coins etc.
- the reject gate 1043 is controlled to be open or closed in the bulk handling mode as described later.
- a dispense transport path 1045 configured to receive the coins from the relay transport path 1044 , and transporting the coins forward (leftward in FIG. 12 ) is provided at a right end of the relay transport path 1044 (a lower end in FIG. 12 ).
- the dispense transport path 1045 is connected to the dispense box 1212 of the dispensing unit 1213 .
- a diversion mechanism 1048 configured to change the destination of the coins between the relay transport path 1044 and the dispense transport path 1045 is provided at a junction between the relay transport path 1044 and the dispense transport path 1045 .
- a right end of the relay transport path 1044 downstream of the diversion mechanism 1048 is connected to the outer stacking unit 1005 .
- the diversion mechanism 1048 is controlled by a controller which is not shown, thereby sending the coins to the dispense box 1212 or the outer stacking unit 1005 .
- the outer stacking unit 1005 has an outlet opened outside the casing.
- the capacity of the outer stacking unit 1005 is larger than the capacity of the depositing unit 1211 , and is larger than the capacity of the dispense box 1212 .
- a box which can be drawn out etc. may be placed in the outer stacking unit 1005 , and the box and the coins contained therein may be removed.
- the inner storage unit 1003 is provided in the casing which is not shown, and the coins stored in the inner storage unit 1003 cannot be removed unless the casing is opened.
- the inner storage unit 1003 includes belt-shaped coin storing/feeding units 1031 - 1037 configured to store the coins of different denominations.
- the coin storing/feeding units 1031 - 1037 are aligned in the horizontal direction to be positioned below sorters 1046 which are aligned in the horizontal direction, and correspond to different denominations, respectively.
- Each of the sorters 1046 has an open/close mechanism which is not shown. According to the denominations of the transported coins, the sorters 1046 are opened or closed to sort the coins by denomination.
- the coins which passed through the sorters 1046 are stored in the coin storing/feeding units 1031 - 1037 .
- the coins are sent to the relay transport path 1044 with the coin storing/feeding units 1031 - 1037 being driven in the reverse direction.
- a downstream end of the sorters 1046 is connected to the outer stacking unit 1005 . With all the sorters 1046 closed, the coins travel over the sorters, and are stacked in the outer stacking unit 1005 .
- the coins introduced in the inlet 1210 are fed one by one by the feeding belt 1041 , and are recognized by the recognition unit 1214 .
- the recognized coins are sent to the inner storage unit 1003 through the recognition transport path 1042 , and are stored in the coin storing/feeding units 1031 - 1037 of the corresponding denominations based on the result of the recognition by the recognition unit 1214 .
- the coins recognized by the recognition unit 1214 do not enter the sorters 1046 , and are directly transferred to the outer stacking unit 1005 to be stacked therein.
- the coins of a designated denomination may be stacked in the outer stacking unit 1005 , and the coins of the other denominations may be stored in the inner storage unit 1003 by opening/closing the sorters 1046 .
- the deposit amount, the inner deposit amount stored in the inner storage unit, and the outer deposit amount stacked in the outer stacking unit are stored. Then, the inventory amount is updated, and the outer deposit amount is sent to the higher-ranking device.
- the coins fed from the inner storage unit 1003 are sent to the dispense transport path 1045 through the relay transport path 1044 . Then, the coins are dispensed in the dispense box 1212 in the normal handling mode (a first dispense mode), or the coins are dispensed in the outer stacking unit 1005 in the bulk handling mode (second dispense mode) according to the control of the diversion mechanism 1048 . In this case, the inventory amount is updated by subtracting the numbers of the dispensed coins of the different denominations from the inventory amount.
- the capacity of the outer stacking unit 1005 is preferably twice or more as large as the capacity of the depositing unit 1211 . This allows stacking of the coins twice as many as the coins which can be introduced in the depositing unit 1211 at a time in the outer stacking unit 1005 . This reduces the frequency of the removal of the stacked coins.
- the outer stacking unit 1005 is configured in such a manner that the coins are stacked at random.
- the coins may be aligned to be stacked in the shape of a column.
- the denomination of the coins has been described as the kind of the coins.
- the coins may be sorted by whether they are fit or unfit, or whether they are of national currency or foreign currency, etc.
- a door which can manually be opened may be attached to the money outlet of the outer stacking unit (the stacking unit) opened outside the casing.
- a door which can automatically be opened when the removal is required may be attached to the money outlet. This structure also allows easy removal of the money stacked in the outer stacking unit without opening the casing.
- the present invention can improve the efficiency of the transaction. Therefore, the present invention is useful as depositing machines, dispensing machines, and depositing and dispensing machines.
Abstract
A money handling apparatus for performing at least depositing includes: a casing; a depositing unit; a recognition unit configured to at least count or recognize money fed from the depositing unit; an inner storage unit from which the money stored therein is unremovable directly from the outside of the casing; an outer stacking unit from which the money stacked therein is removable directly from the outside of the casing; a transport unit configured to transport the money among the above-described units; and a controller configured to allow selective transport of the money handled by the recognition unit to the inner storage unit, or the outer stacking unit. The controller transfers the money to the inner storage unit when a first deposit mode is selected by a selection signal, or transfers the money to the outer stacking unit when a second deposit mode is selected.
Description
- This application is a continuation of U.S. patent application Ser. No. 13/126,391 filed on Apr. 27, 2011, which is incorporated herein by reference, which was based upon and claimed the benefit of priority from the prior PCT/JP20081003058 filed on Oct. 28, 2008, the entire contents of which are incorporated herein by reference.
- The present invention relates to a money handling apparatus for depositing and/or dispensing money.
-
Patent Document 1 discloses, for example, a depositing and dispensing machine which is placed in a teller counter of a bank, and is shared by two tellers on the right and left sides of the machine. The depositing and dispensing machine is a so-called circulating depositing and dispensing machine. Specifically, the machine includes, in a casing, a depositing unit in which banknotes are introduced, a recognition unit configured to count and recognize the banknotes, an escrow unit configured to temporarily retain the recognized banknotes, a storage unit configured to store the banknotes retained in the escrow unit after the deposit of the banknotes is confirmed, and a dispensing unit which is provided with a shutter, and from which the banknotes fed from the storage unit are dispensed in dispensing. - The depositing and dispensing machine performs the depositing in the following manner. Specifically, the banknotes are introduced in the depositing unit. Then, an operation for starting the predetermined depositing is performed. Then, the banknotes introduced in the depositing unit are fed one by one, and are recognized and counted by the recognition unit. The recognized banknotes are temporarily retained in the escrow unit. When the deposit of the banknotes is confirmed with all the banknotes introduced in the depositing unit fed and temporarily retained in the escrow unit, the banknotes temporarily retained in the escrow unit are stored in the storage unit. Thus, the depositing is finished. When an operation for canceling the deposit of the banknotes is performed with all the banknotes introduced in the depositing unit fed and temporarily retained in the escrow unit, the banknotes temporarily retained in the escrow unit are not stored in the storage unit, but are returned to the depositing unit.
- In this depositing and dispensing machine, the escrow unit may become full when a large amount of banknotes is deposited at a time. In this case, conventional depositing and dispensing machines may experience the following disadvantage. Specifically, when the escrow unit becomes full, the depositing cannot proceed. Accordingly, for example, a predetermined operation has to be performed to store the banknotes in the escrow unit in the storage unit. Then, when the storage unit is filled with the banknotes, the casing has to be opened to expose the storage unit outside to remove the banknotes stored in the storage unit. Thus, in depositing a large amount of banknotes at a time in the conventional depositing and dispensing machine, the teller has to carry out a certain operation to take care of the apparatus every time when the escrow unit or the storage unit becomes full, which is troublesome to the teller. Further, the depositing is interrupted every time when the teller carries out the operation, thereby increasing time required for the depositing. This increases customers′waiting time, and decreases efficiency of transactions at teller's windows.
- As disclosed by Patent Document 2, for example, increasing a capacity of the escrow unit may be a possible solution to such a disadvantage. This can prevent the escrow unit from becoming full.
- However, even when the capacity of the escrow unit is increased, some operation has to be performed during the depositing as described above when the amount of the deposited banknotes exceeds the increased capacity of the escrow unit.
- Further, increase in capacity of the escrow unit in the casing increases the size of the apparatus. This is not preferable for the depositing and dispensing machine placed in the teller counter. To precisely stack the banknotes in the escrow unit of increased capacity, a mechanism for processing the banknotes is required as disclosed by Patent Document 2, for example. The provision of the processing mechanism disadvantageously complicates the structure of the apparatus. Increasing the capacity of the storage unit may be another solution to the above disadvantage. However, also in this case, the size of the apparatus increases. The same is applied to the apparatus in which the escrow unit is not provided, and the banknotes are directly stored in the storage unit.
- For example,
Patent Document 3 discloses a banknote processing machine including a depositing unit, a recognition unit, and a stacking unit configured to stack the banknotes which are introduced in the depositing unit, and are recognized by the recognition unit. In this machine, the stacking unit is open outside the casing, and the banknotes stacked therein can easily be removed by hand. Thus, in handling a large amount of banknotes at a time in this machine, the banknotes stacked in the stacking unit can quickly be removed by hand before, or immediately after the stacking unit becomes full. This can avoid interruption of the depositing, or allows easy restart of the depositing, if interrupted. This can reduce a period for the interruption as much as possible. - However, this machine is merely a banknote processing machine which does not include the storage unit configured to store the banknotes, and cannot perform the depositing and the dispensing.
- The depositing in the depositing and dispensing machine has been described above. However, the same disadvantage occurs in the dispensing. Specifically, in dispensing a large amount of banknotes at a time, the dispensing is interrupted, and the shutter has to be opened to remove the banknotes from the dispensing unit every time when the dispensing unit becomes full.
- Such a disadvantage is not particular to the depositing/dispensing of the banknotes in/from the depositing and dispensing machine. The same disadvantage may occur in depositing and dispensing coins.
- [Patent Document 1] Japanese Patent Publication No. 2003-30714
- [Patent Document 2] Japanese Patent Publication No. H07-234955
- [Patent Document 3] Japanese Patent Publication No. 2000-259882
- In view of the foregoing, the present invention has been achieved. An object of the invention is to increase efficiency of at least the depositing, or at least the dispensing performed by the money handling apparatus.
- According to an aspect of the present invention, a money handling apparatus for performing at least depositing includes: a casing; a depositing unit including a feeding mechanism configured to feed one by one money introduced therein; a recognition unit configured to at least count or recognize the money fed from the depositing unit; an inner storage unit configured to store the money handled by the recognition unit, the money stored therein being unremovable directly from the outside of the casing; an outer stacking unit configured to stack the money handled by the recognition unit, the money stacked therein being removable directly from the outside of the casing; a transport unit configured to transport the money among the depositing unit, the recognition unit, the inner storage unit, and the outer stacking unit; and a controller configured to control the depositing unit, the recognition unit, the inner storage unit, the outer stacking unit, and the transport unit to selectively transport the money handled by the recognition unit to the inner storage unit, or the outer stacking unit.
- In this money handling apparatus, a first deposit mode or a second deposit mode is selectable as a mode for the depositing, and the controller allows transport of the money handled by the recognition unit to the inner storage unit to be stored in the inner storage unit when the first deposit mode is selected by a selection signal, or the controller allows transport of the money handled by the recognition unit to the outer stacking unit to be stacked in the outer stacking unit when the second deposit mode is selected by the selection signal.
- With this configuration, the money which is recognized, and/or counted by the recognition unit are selectively transported to the outer stacking unit, or the inner storage unit. The money stored in the inner storage unit is unremovable directly from the outside of the casing, i.e., the money cannot be removed unless the casing is opened, for example. In contrast, the money stacked in the outer stacking unit is removable directly from the outside of the casing.
- Thus, for example, when the second deposit mode is a mode for depositing a large amount of money, the money handled by the recognition unit is transported to the outer stacking unit, and is stacked therein. Therefore, the money stacked in the outer stacking unit can easily be removed before, or even after the outer stacking unit becomes full. This can avoid interruption of the depositing, or allows easy restart of the depositing, if interrupted, thereby reducing a period for the interruption as much as possible.
- When the first deposit mode is a mode for depositing the money in an amount which does not fill the inner storage unit (or the escrow unit), the inner storage unit (or the escrow unit) does not become full during the depositing in the first deposit mode, and the depositing is not interrupted. Thus, efficiency of the depositing is less likely to decrease in any mode.
- According to another aspect of the present invention, a money handling apparatus for performing at least depositing includes: a casing; a depositing unit including a feeding mechanism configured to feed one by one money introduced therein; a recognition unit configured to at least count or recognize the money fed from the depositing unit; an inner storage unit configured to store the money handled by the recognition unit, the money stored therein being unremovable directly from the outside of the casing; an outer stacking unit configured to stack the money handled by the recognition unit, the money stacked therein being removable directly from the outside of the casing; a transport unit configured to transport the money among the depositing unit, the recognition unit, the inner storage unit, and the outer stacking unit; and a controller configured to control the depositing unit, the recognition unit, the inner storage unit, the outer stacking unit, and the transport unit to selectively transport the money handled by the recognition unit to the inner storage unit, or the outer stacking unit.
- The controller is connected to a destination designating unit configured to designate a destination of the money based on a kind of the money, and is capable of receiving a designating signal from the destination designating unit. When kinds of the money are designated by the designating signal, the controller allows transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the outer stacking unit, to the outer stacking unit to be stored therein, and the controller allows transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the inner storage unit, to the inner storage unit to be stored therein.
- With this configuration, as described above, the interruption of the depositing is avoided, and the depositing can easily be restarted, if interrupted, thereby reducing a period for the interruption as much as possible. Further, the money is sorted by kind, thereby improving convenience. This is effective for depositing a certain kind of the money to be sorted, i.e., money of a certain denomination, fit money, unfit money, money of national currency, money of foreign currency, etc. For example, this is effective for depositing the money in which a certain kind of the money is relatively larger in amount than the other kinds of the money.
- The controller may allow transport of the money handled by the recognition unit to the outer stacking unit to be stacked therein when a predetermined amount of the money has been stored in the inner storage unit.
- With this configuration, the inner storage unit is prevented from becoming full, and the interruption of the depositing can be avoided.
- The money handling apparatus may further include: a memory configured to store the numbers of different kinds of the deposited money, wherein the memory stores at least one of the numbers of the different kinds of the money stored in the inner storage unit, or the numbers of the different kinds of the money stacked in the outer stacking unit.
- The money handling apparatus may further include: a dispensing unit configured to dispense the money handled by the recognition unit, wherein the controller allows feeding of the money stored in the inner storage unit, and dispensing of the fed money to the dispensing unit as the dispensing.
- The outer stacking unit may be capable of storing a larger amount of the money than an amount of the money storable in the depositing unit.
- According to still another aspect of the present invention, a money handling apparatus for performing at least dispensing includes: a casing; an inner storage unit provided in the casing to store money therein; a recognition unit configured to at least count or recognize the money fed from the inner storage unit one by one; a dispensing unit configured to dispense the money handled by the recognition unit; an outer stacking unit which is capable of storing a larger amount of the money than an amount of the money storable in the dispensing unit, and stacking the money handled by the recognition unit, the money stacked therein being removable directly from the outside of the casing; a transport unit configured to transport the money among the storage unit, the recognition unit, the dispensing unit, and the outer stacking unit; and a controller configured to control the inner storage unit, the recognition unit, the dispensing unit, the outer stacking unit, and the transport unit to selectively transport the money handled by the recognition unit to the dispensing unit, or the outer stacking unit.
- With this configuration, the money which is recognized and/or counted by the recognition unit is selectively transported to the outer stacking unit, or the dispensing unit. The outer stacking unit has a larger capacity than the capacity of the dispensing unit, and the money stacked therein is removable directly from the outside of the casing. Therefore, the outer stacking unit can stack a large amount of money, and allows easy removal of the money stacked therein.
- Thus, in handling (e.g., in dispensing) a large amount of money, the money handled by the recognition unit is transported to the outer stacking unit, and is stacked therein. This can avoid interruption of the dispensing, or allows easy restart of the dispensing, if interrupted, thereby reducing a period for the interruption as much as possible.
- A first dispense mode or a second dispense mode is selectable as a mode for the dispensing, and the controller allows transport of the money handled by the recognition unit to the dispensing unit when the first dispense mode is selected by a selection signal, or allows transport of the money handled by the recognition unit to the outer stacking unit when the second dispense mode is selected by the selection signal.
- When the first dispense mode is a mode for dispensing the money in an amount which does not fill the dispensing unit, for example, the dispensing unit does not become full during the dispensing, and the dispensing is not interrupted in the first dispense mode. In the second dispense mode, the money is stacked in the outer stacking unit. Thus, when the money in an amount which fills the dispensing unit is dispensed, the dispensing is not interrupted like in the first dispense mode, or the dispensing, if interrupted, can easily be restarted to reduce a period of the interruption as much as possible. Thus, the efficiency of the dispensing is less likely to decrease in any mode.
- The controller may be connected to a destination designating unit configured to designate a destination of the money based on a kind of the money, and is capable of receiving a designating signal from the destination designating unit. When the kinds of the money is designated by the designating signal, the controller may allow transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the outer stacking unit, to the outer stacking unit, and the controller may allow transport of some of the money, which are recognized by the recognition unit, and are of the designated kind to be transported to the dispensing unit, to the dispensing unit.
- With this configuration, the money is sorted by kind, thereby improving convenience. This is effective for dispensing a certain kind of the money to be sorted, i.e., money of a certain denomination, fit money, unfit money, money of national currency, money of foreign currency, etc. For example, this is particularly effective for dispensing the money in which a certain kind of the money is relatively larger in amount than the other kinds of the money.
- The outer stacking unit may be divided into a plurality of stacking regions configured to stack the money, respectively, and a capacity ratio between the plurality of stacking regions may be variable.
- With this configuration, the money stacked in the outer stacking unit can be sorted by kind, i.e., denomination, whether the money is fit or unfit, etc. Further, the space of the outer stacking unit can efficiently be used, thereby improving convenience.
- The outer stacking unit may be separated from the casing, and may detachably be attached to the casing. With this configuration, the outer stacking unit can be retrofitted to the casing. Thus, the outer stacking unit can be retrofitted as needed.
- According to the present invention, particularly in depositing or dispensing a large amount of money at a time, the depositing or dispensing is not interrupted, or the depositing or dispensing, if interrupted, can easily be restarted, thereby reducing a period for the interruption as much as possible. This can improve efficiency in handling the money.
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FIG. 1 is a perspective view illustrating the general structure of a banknote depositing and dispensing machine. -
FIG. 2 is a perspective view illustrating the depositing and dispensing machine in use. -
FIG. 3 is a schematic view illustrating the inner structure of the depositing and dispensing machine. -
FIG. 4 is a block diagram illustrating the structure associated with control of the depositing and dispensing machine. -
FIG. 5 is a view illustrating a transport path of banknotes deposited in a normal handling mode (a first deposit mode). -
FIG. 6 is a view illustrating a transport path of the banknotes deposited in a bulk handling mode (a second deposit mode). -
FIG. 7 is a view illustrating a transport path of the banknotes deposited when denominations of the banknotes are designated. -
FIG. 8 is a view illustrating a transport path of the banknotes dispensed in a normal handling mode (a first dispense mode). -
FIG. 9 is a view illustrating a transport path of the banknotes dispensed in a bulk handling mode (a second dispense mode). -
FIG. 10 is a schematic view illustrating another structure of the depositing and dispensing machine. -
FIG. 11 is a schematic view illustrating still another structure of the depositing and dispensing machine. -
FIG. 12 is a schematic view illustrating the inner structure of a coin depositing and dispensing machine. - An embodiment of the present invention will be described in detail with reference to the drawings. The following preferred embodiment will be set forth merely for the illustration purpose, and are not intended to limit the scope, applications, and use of the invention.
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FIG. 1 is a perspective view illustrating a depositing and dispensingmachine 1 as an example of a money handling apparatus. As shown inFIG. 2 , the depositing and dispensingmachine 1 is substantially in the shape of a rectangular box having a relatively short width, and a relatively long depth. For example, the depositing and dispensingmachine 1 is placed in a teller counter of a bank, and is shared by two tellers on the right and left sides of the depositing and dispensingmachine 1. Two higher-rankingterminals 6 used by the right and left tellers, respectively, are connected to the depositing and dispensingmachine 1. The tellers use the depositing and dispensingmachine 1 by operating the higher-rankingterminals 6, respectively. - A
casing 11 of the depositing and dispensingmachine 1 is roughly divided into anupper body 11 a and a lowersafe unit 11 b As shown inFIGS. 1-4 , thebody 11 a includes adepositing unit 211 having aninlet 210 through which banknotes are introduced, adispensing unit 213 having an outlet through which the banknotes are dispensed, arecognition unit 214 configured to recognize the banknotes, anescrow unit 215 configured to temporarily retain the recognized banknotes in the depositing, and atransport unit 4 which includes a transport path mutually connecting thedepositing unit 211, the dispensingunit 213, therecognition unit 214, and theescrow unit 215, and transports the banknotes through the transport path in a long edge feed manner. Thesafe unit 11 b includes aninner storage unit 3 configured to store the banknotes. The depositing and dispensingmachine 1 is configured to be a so-called circulating depositing and dispensingmachine 1. Specifically, the depositing and dispensingmachine 1 stores the banknotes in theinner storage unit 3 in the depositing, and feeds and dispenses the banknotes stored in theinner storage unit 3 in the dispensing. - The depositing and dispensing
machine 1 further includes acommunication unit 22 configured to transmit and receive data to and from the higher-rankingterminals 6 through communication lines, adisplay 23 which is arranged in the lateral center of an upper surface of thecasing 11 to display various types of information, anoperation unit 24 which is operated by the tellers, amemory 26 configured to store various types of data etc., and acontroller 25 configured to control the above-described units 211-215, 22-24, 26, and 3-5. - The
operation unit 24 includes aleft occupation switch 241 arranged at a left end of the upper surface of thecasing 11, and aright occupation switch 242 arranged at a right end of the upper surface of thecasing 11. The two tellers share the depositing and dispensingmachine 1, but they cannot use the machine at the same time. Theleft occupation switch 241 or theright occupation switch 242 is operated when the left or right teller uses the depositing and dispensingmachine 1. When theleft occupation switch 241 is operated, the left teller is allowed to use the depositing and dispensingmachine 1. When theright occupation switch 242 is operated, the right teller is allowed to use the depositing and dispensingmachine 1. The selection may be performed through the higher-rankingterminals 6. - The
memory 26 stores at least an inventory amount in the machine indicating the respective numbers of the banknotes of different denominations stored in the inner storage unit 3 (acassette 30 and stackers 31-34 described below), a deposit amount representing the respective numbers of the banknotes of different denominations deposited in the depositing, an inner deposit amount representing the respective numbers of the banknotes of different denominations stored in theinner storage unit 3 in the depositing, and an outer deposit amount representing the respective numbers of the banknotes of different denominations stacked in an outer stackingunit 5 described below in the depositing. Further, thememory 26 may store the inventory amount, the deposit amount, the inner deposit amount, and the outer deposit amount each indicating the respective numbers of the banknotes sorted by kind of the banknotes except for the denomination, i.e., whether the banknotes are fit or unfit, whether the banknotes are of national currency or foreign currency, etc. The banknotes may be sorted by two or more kinds, for example, the denomination and whether the banknotes are fit or unfit, etc. - In the depositing and dispensing
machine 1, an outer stackingunit 5 configured to stack the banknotes is detachably attached to a rear part of the upper surface of thecasing 11. The outer stackingunit 5 of the present embodiment is configured as a single component, and therefore, the outer stackingunit 5 may be referred to as a stackingunit 5. The structure of the stackingunit 5 will be described in detail below. - The
inlet 210 is a port in which a stack of a plurality of banknotes is introduced. As shown inFIG. 1 , theinlet 210 is horizontally oriented, and is opened upward in the upper surface of thecasing 11. Theinlet 210 includes a shutter configured to open and close the inlet. InFIG. 1 , the shutter is open, and theinlet 210 is open. Thedepositing unit 211 includes a mechanism configured to feed one by one the plurality of banknotes introduced in theinlet 210. In the present embodiment, thedepositing unit 211 is configured to be able to contain about 100-200 banknotes. However, the capacity of thedepositing unit 211 is not limited thereto. - The dispensing
unit 213 dispenses the banknotes fed from theinner storage unit 3 in the dispensing, and returns the banknotes which are recognized as unacceptable by therecognition unit 214, e.g., rejected notes etc., in the depositing. Theoutlet 212 is horizontally oriented, and is opened upward in the upper surface of thecasing 11 to be positioned forward of theinlet 210. Like theinlet 210, theoutlet 212 includes a shutter configured to open and close the outlet. InFIG. 1 , the shutter is opened, and theoutlet 212 is opened. In the present embodiment, the dispensingunit 213 is configured to be able to contain about 100-200 banknotes. However, the capacity of thedispensing unit 213 is not limited thereto. - The
recognition unit 214 recognizes at least whether each of the banknotes fed from thedepositing unit 211 is genuine or counterfeit, the denomination of each banknote, and whether each banknote is fit or unfit. Simultaneously, therecognition unit 214 counts the banknotes. When the depositing and dispensingmachine 1 is configured to be able to handle currencies of different countries, therecognition unit 214 is configured to be able to recognize the kinds of each of the currencies. - The
escrow unit 215 temporarily retains the banknotes which are recognized by therecognition unit 214, and are transported to the escrow unit. Theescrow unit 215 can be considered as part of the inner storage unit because the escrow unit stores the banknotes. The banknotes temporarily retained in theescrow unit 215 are stored in theinner storage unit 3, or returned to the inlet according to the operation performed by the teller as described below. Theescrow unit 215 in this apparatus is a so-called tape winding stacker. The tape winding stacker is configured to store the banknotes by winding twotapes 217 sandwiching the fed banknotes on arotation reel 218, and to feed the banknotes by rewinding therotation drum 218. The tape winding stacker used as theescrow unit 215 may be replaced with a stacker of a different type capable of storing and feeding the banknotes. In the present embodiment, theescrow unit 215 is configured to be able to contain about 200-400 banknotes. However, the capacity of theescrow unit 215 is not limited thereto. - The
inner storage unit 3 includes asingle cassette 30, and first to fourth stackers 31-34. The number of the cassette and stackers is not limited thereto. The number of the cassette and stackers in theinner storage unit 3 can optionally be selected. In the present embodiment, each of the stackers 31-34 is configured to be able to contain about 1000-2000 banknotes. However, the capacity of the stackers is not limited thereto. - The
safe unit 11 b has an open front surface, and an open/close door is attached to the open front surface. Although not shown, thecassette 30 and the stackers 31-34 of theinner storage unit 3 are configured to be drawn forward when the door is opened. Thus, the banknotes stored in theinner storage unit 3 are unremovable directly from the outside of thecasing 11. - The
cassette 30 can store and feed the banknotes, and is detachably attached to theinner storage unit 3 to be positioned forwardmost in the direction of the depth of the apparatus. Thecassette 30 stores overflowed banknotes which cannot be stored in the first to fourth stackers 31-34 which have become full, unfit banknotes which are recognized by therecognition unit 214 as those which can be deposited, but cannot be dispensed because of their stains or tears, and rejected banknotes which cannot be dispensed because they cannot be recognized by therecognition unit 214 in the dispensing, etc. Currencies of different countries can be stored in thecassette 30. In refilling the depositing and dispensingmachine 1 with the banknotes, additional banknotes are placed in thecassette 30, and the cassette is attached to the depositing and dispensingmachine 1. The banknotes in thecassette 30 are transported to the stackers 31-34, and are stored therein. In collecting the banknotes from the depositing and dispensingmachine 1, the banknotes stored in the stackers 31-34 are stored in thecassette 30, and the cassette is removed from the depositing and dispensingmachine 1. - The first to fourth stackers 31-34 can store and feed the banknotes, respectively, and are arranged from the front to the rear behind the
cassette 30 in the depth direction of the apparatus. For example, the first to fourth stackers 31-34 store the banknotes of different denominations, respectively. - The
transport unit 4 includes a loopedtransport path 41 which is looped in thecasing 11. The banknotes are transported in the loopedtransport path 41 in the forward direction (a clockwise direction inFIG. 3 ), and in the reverse direction (a counterclockwise direction inFIG. 3 ). - The
recognition unit 214 is provided in the loopedtransport path 41. The above-describedunits recognition unit 214 are connected to the loopedtransport path 41 to be diverted therefrom. Specifically, thedepositing unit 211 is connected to the loopedtransport path 41 through adeposit transport path 42, the dispensingunit 213 is connected to the loopedtransport path 41 through a dispensetransport path 43, and theescrow unit 215 is connected to the loopedtransport path 41 through anescrow transport path 44. Thecassette 30 of the inner storage unit is connected to the loopedtransport path 41 through acassette transport path 45 and areject transport path 46. The first to fourth stackers 31-34 are connected to the loopedtransport path 41 through first to fourth stacker transport paths 471-474, respectively. - Diverters 48 a, 48 b are arranged at diversion points between the looped
transport path 41 and the transport paths diverted from the loopedtransport path 41. Thediverter 48 a can sort the banknotes transported from a single transport path to be transported in two directions. Thediverter 48 b can sort the banknotes transported from a plurality of transport paths to be transported in two directions (see, e.g., Japanese Patent No. 274225). According to the depositing or dispensing performed by the depositing and dispensingmachine 1, thecontroller 25 controls thediverters - A
first transport path 49 and asecond transport path 410 connected to the stackingunit 5 are connected to parts of the loopedtransport path 41 forward and rearward of therecognition unit 214, respectively, to be diverted from the loopedtransport path 41. Thediverters 48 a are provided at the diversion points. - The structure of the
transport unit 4 is not limited to the above structure, and various types of structures can be used. - As described above, the stacking
unit 5 is a unit configured to be attachable to the upper surface of thecasing 11. The stackingunit 5 includes a stackingrecess 51 extending in the depth direction of the machine. As shown inFIG. 3 , thebanknotes 100 are stacked in the stackingrecess 51 to be aligned in the depth direction of thecasing 11. In the stackingrecess 51, the stacked banknotes are exposed outside thecasing 11. Thus, unlike the banknotes stored in theinner storage unit 3, the stacked banknotes can easily be removed directly from the outside of thecasing 11 without opening the casing 11 (thesafe unit 11 b). That is, theinner storage unit 3 and theescrow unit 215 are closed stackers, while the stackingunit 5 is an open stacker. - The stacking
recess 51 of the stackingunit 5 is relatively long in the depth direction. In the present embodiment, the stackingunit 5 is configured to be able to contain about 500-1000 banknotes. Thus, the capacity of the stackingunit 5 is larger than the capacities of thedepositing unit 211 and thedispensing unit 213. - An outlet through which the banknotes are dispensed is formed in a rearmost portion of the stacking recess 51 (a right portion in
FIG. 3 ), and stackingwheels 52 which tap the banknotes dispensed through the outlet are provided in the outlet. Aguide plate 53 which is movable in a direction in which the banknotes are stacked (in the depth direction) is attached to the stackingrecess 51, and a guiding belt (not shown) is provided on the bottom of the stacking recess. As schematically shown inFIG. 3 , thebanknotes 100 dispensed to the stackingrecess 51 through the outlet are aligned from the rear to the front of the stacking recess while supported by the guiding belt, and a guidingplate 53 which moves appropriately with the guiding belt (see an arrow shown inFIG. 3 ). - As shown in
FIG. 3 , an in-unit transport path 54 configured to transport the banknotes is provided in the stackingunit 5. An end of the in-unit transport path 54 is an opening constituting the outlet, and the other end is a connection end which is connected to thefirst transport path 49 and thesecond transport path 410 when the stackingunit 5 is attached to thecasing 11. - When the transport path is not provided in the stacking
unit 5, but is provided in thecasing 11, and the stackingunit 5 is attached to thecasing 11, the outlet may be connected to the transport path of the casing. - Operations of the above-described depositing and dispensing
machine 1 will be described below. When the respective units are controlled by thecontroller 25, the depositing and dispensingmachine 1 performs at least depositing of the banknotes, dispensing of the banknotes, refilling theinner storage unit 3 with the banknotes, and collecting the banknotes from theinner storage unit 3. Among them, the depositing and the dispensing have two modes, i.e., a normal handling mode, and a bulk handling mode. The normal handling mode is selected when the number of banknotes deposited or dispensed is relatively small, and the bulk handling mode is selected when the number of banknotes deposited or dispensed is relatively large. For example, the bulk handling mode is a mode for handling more banknotes than those storable in theescrow unit 215 or thedispensing unit 213. The normal handling mode is a mode for handling fewer banknotes than those storable in theescrow unit 215 or thedispensing unit 213. The bulk handling mode may be employed to sort the banknotes of a certain kind. Selection of the depositing, the dispensing, the refilling, or the collecting, or selection of the normal handling mode or the bulk handling mode can be done based on an operation designating signal or a selection signal input from the higher-rankingterminal 6 to the depositing and dispensingmachine 1 by operating the higher-rankingterminal 6. - Referring to
FIG. 5 , the depositing in the normal handling mode (a first deposit mode) will be described below. In the depositing, the banknotes introduced in theinlet 210 are fed one by one, pass through thedeposit transport path 42, and travel through the loopedtransport path 41 in the forward direction to reach therecognition unit 214. Therecognition unit 214 recognizes and counts the banknotes. Based on the recognition result, the banknotes which can be deposited travel through the loopedtransport path 41 in the forward direction as indicated by arrows inFIG. 5 to reach theescrow unit 215 through theescrow transport path 44. Although not shown, the banknotes which cannot be deposited are transported from the loopedtransport path 41 to theoutlet 212 through the dispensetransport path 43, or to thecassette 30 through thereject transport path 46. - After all the banknotes are fed from the inlet 210 (after the banknotes rejected to the
outlet 212 are introduced and fed again), the count of the banknotes is displayed on the higher-rankingterminal 6, and an operation for confirming the deposit of the banknotes is performed by operating the higher-rankingterminal 6. Then, although not shown, the banknotes temporarily retained in theescrow unit 215 are fed. The fed banknotes travel through the loopedtransport path 41 in the forward direction, and pass through the first to fourth stacker paths 471-474 to be stored in the first and fourth stackers 31-34, while the banknotes are sorted by denomination. In place of using theescrow unit 215, the banknotes may directly be stored in the first to fourth stackers 31-34. In this case, the operation for confirming the deposit of the banknotes is not necessary. - In the depositing in the bulk handling mode (a second deposit mode), the banknotes introduced in the
inlet 210 are fed one by one, and are transported to therecognition unit 214 through thedeposit transport path 42 and the loopedtransport path 41. This is the same as the normal handling mode. Then, therecognition unit 214 recognizes and counts the banknotes. - In the bulk handling mode, the banknotes which can be deposited are transported from the looped
transport path 41 to the stackingunit 5 through thesecond transport path 410 and the in-unit transport path 54 as indicated by arrows inFIG. 6 , and are stacked in the stackingrecess 51. As described above, the capacity of the stackingunit 5 is relatively large. Therefore, in depositing a large amount of banknotes, the stackingrecess 51 does not become full, and the depositing is not interrupted. - Further, as described above, the banknotes stacked in the stacking
recess 51 can easily be removed directly from the outside of thecasing 11. Thus, for example, even when the number of banknotes handled in the bulk handling mode exceeds the number of banknotes stackable in the stackingrecess 51, the depositing will continue without interruption when the teller removes the banknotes stacked in the stackingrecess 51 before the stackingrecess 51 becomes full. Even when the stackingrecess 51 becomes full, the depositing can easily be restarted when the teller removes the stacked banknotes. - Thus, in the depositing and dispensing
machine 1, even when a large amount of banknotes are deposited at a time, increase in time for the depositing can be reduced, thereby increasing efficiency of the depositing. This can improve the efficiency of transactions at teller's windows, and can shorten customers' waiting time. - Further, it is no longer necessary to increase the size of the
escrow unit 215 in thecasing 11, thereby keeping the size of the depositing and dispensingmachine 1 small. This is advantageous for the depositing and dispensingmachine 1 placed in the teller counter. In addition, complication of the apparatus associated with the increase in capacity of theescrow unit 215 can be prevented, thereby reducing costs of the depositing and dispensingmachine 1. - When all the banknotes introduced in the
inlet 210 are fed, the count of the banknotes is displayed on the higher-rankingterminal 6, and the operation for confirming the deposit of the banknotes, for example, is performed. In the bulk handling mode, the banknotes are removed from the stackingrecess 51, and are stored in, for example, a safe different from the depositing and dispensingmachine 1. - In the bulk handling mode, although not shown, the banknotes which are recognized by the
recognition unit 214 as those which cannot be deposited are transported from the loopedtransport path 41 to theoutlet 212 through the dispensetransport path 43, or to thecassette 30 through thereject transport path 46. This is the same as the normal handling mode. - The two modes are referred to as the “bulk handling mode,” and the “normal handling mode,” but these are merely examples. The depositing configured to stack the banknotes in the outer stacking
unit 5 is not limited to handling of a large amount of banknotes at a time. - As an example of the depositing of the banknotes when a predetermined kind of the banknotes is designated, depositing of the banknotes when a predetermined denomination is designated will be described with reference to
FIG. 7 . In this depositing, the banknotes introduced in theinlet 210 are fed one by one, and are transported to therecognition unit 214 through thedeposit transport path 42 and the loopedtransport path 41. Therecognition unit 214 recognizes and counts the banknotes. - Based on the recognition result of the
recognition unit 214, the banknotes of the designated denomination are transported from the loopedtransport path 41 to the stackingunit 5 through thesecond transport path 410 as indicated by solid arrows inFIG. 7 . Thus, the banknotes of the designated denomination are stacked in the stackingrecess 51. - The banknotes of the denominations except for the designated denomination are transported from the looped
transport path 41 to theescrow unit 215 through theescrow transport path 44 as indicated by dot-dash arrows inFIG. 7 . - When all the banknotes are fed from the
inlet 210, the count of the banknotes is displayed on the higher-rankingterminal 6. When the higher-rankingterminal 6 is operated to confirm the deposit of the banknotes, although not shown, the banknotes temporarily retained in theescrow unit 215 are fed to be stored in the first to forth stackers 31-34, while the banknotes are sorted by denomination as described above. The banknotes stacked in the stackingrecess 51 are removed by the teller, and are stored in a safe different from the depositing and dispensingmachine 1. - Designating the denomination is particularly advantageous when the number of the banknotes to be deposited exceeds the number of the banknotes which can be stored in the
escrow unit 215. Specifically, when a large amount of banknotes is deposited at a time, and the number of the banknotes of a particular denomination is larger than the number of the banknotes of the other denominations, only the banknotes of the particular denomination are stacked in the stackingunit 5. Thus, theescrow unit 215 does not become full, and the efficiency of the depositing improves. Simultaneously, the banknotes are conveniently sorted by denomination. For example, in selecting the bulk handling mode through the higher-rankingterminal 6, the denomination of the banknotes to be stacked in the stackingunit 5 may optionally be designated. The denomination can be designated also in the normal handling mode. - In performing the depositing, the selection of the normal handling mode or the bulk handling mode, or the designation of the denomination of the banknotes to be stacked in the stacking
unit 5 can be performed by operating the higher-rankingterminal 6. The teller can suitably determine which handling mode should be selected after checking the amount of the banknotes to be deposited. In place of designating the denomination of the banknotes to be stacked in the stackingunit 5, the denomination of the banknotes to be stored in theinner storage unit 3 may be designated. - For example, when the normal handling mode is selected, and the
escrow unit 215 becomes full while the banknotes are sequentially fed to theescrow unit 215 to be temporarily retained therein, the rest of the banknotes may be transported to the stackingunit 5 in place of theescrow unit 215. Specifically, when the depositing is being performed, the normal handling mode may automatically be changed to the bulk handling mode. Thus, even when theescrow unit 215 becomes full, the depositing can continue without interruption. - This advantageously improves the efficiency of the depositing. When the normal handling mode is changed to the bulk handling mode, the temporarily retained banknotes are fed from the
escrow unit 215 to be stacked in the stackingrecess 51 after all the banknotes in theinlet 210 are fed. Specifically, all the banknotes to be deposited may be stacked in the stackingrecess 51. - For example, in the depositing and dispensing machine which does not include the
escrow unit 215, whether the deposited banknotes are directly transported to the first to fourth stackers 31-34, or are stacked in the stackingunit 5 may be selected. Thus, the selection of the normal handling mode or the bulk handling mode, and the designation of the denomination of the banknotes to be stacked in the stackingunit 5 can be performed in the same manner as in the depositing and dispensing machine including theescrow unit 215. - The capacity of the stacking
unit 5 is preferably twice or more as large as the capacity of thedepositing unit 211. Thus, the banknotes at least twice as many as the banknotes which can be deposited in the depositing unit at a time can all be stacked in the stackingunit 5. This can reduce the frequency of the removal of the banknotes from the stackingunit 5, thereby saving time and labor of the teller. - The capacity of the stacking
unit 5 is preferably twice or more as large as the capacity of theescrow unit 215. Thus, the banknotes at least twice as many as the banknotes which can be temporarily retained in the escrow unit at a time can all be stacked in the stackingunit 5, although depositing of such a large amount of banknotes involves storing a set of the banknotes which filled the escrow unit in the storage part, and retaining another set of the banknotes in the escrow unit, if the capacity of the stackingunit 5 is not twice or more as large as the capacity of the escrow unit. This can save time required for the storing of the banknotes in the storage part, thereby reducing transaction time. - In the depositing described above, the memory 26 a stores the deposit amount representing the respective numbers of the banknotes of different denominations deposited in the depositing and dispensing
machine 1, the inner deposit amount representing the respective numbers of the banknotes of different denominations stored in theinner storage unit 3, and the outer deposit amount representing the respective numbers of the banknotes of different denominations stacked in the outer stackingunit 5. The inner deposit amount is added to the inventory amount, thereby updating the inventory amount. Information of the outer deposit amount is sent to the higher-rankingterminal 6 or a different higher-ranking device through thecommunication unit 22. The information can be sent every time when the depositing is performed, regularly, or when requested by the higher-ranking device. Both of the inner deposit amount and the outer deposit amount may be stored at any time. When the banknotes are not stored in theinner storage unit 3, or not stacked in the outer stackingunit 5, only the inner deposit amount of theinner storage unit 3, or the outer deposit amount of the outer stackingunit 5 to which the banknotes are transported may be stored in the memory. - Regarding the selection of the handling mode, and the designation of the denomination, for example, customer information including an account number, and setting information of the depositing and dispensing
machine 1 may be associated with each other, and the associated information may be stored in a customer information database (not shown) to which the higher-rankingterminal 6 is connected. Thus, when the account number is input to the higher-rankingterminal 6, the selection of the handling mode and the designation of the denomination can automatically be performed based on the information stored in the database. For example, some customers may always deposit many banknotes, or always deposit many banknotes of a particular denomination due to their occupations. In such cases, the setting of the depositing and dispensingmachine 1 can automatically be changed to the setting for customized depositing by merely inputting the account number. This significantly improves convenience. - The denomination of the banknotes has been described as the kind of the banknotes. However, the banknotes may be sorted by whether they are fit or unfit, or whether they are of national currency or foreign currency, etc. For example, when many of the deposited banknotes are unfit banknotes not suitable for the dispensing, or when many of the deposited banknotes are in foreign currency, such many banknotes may advantageously be designated.
- A unit for identifying the customer is not limited to the account number input to the higher-ranking
terminal 6. There are various known unit for identifying the customer, and they can be selected as appropriate. For example, the customer may be identified by reading a card possessed by the customer. - The dispensing in the normal handling mode (a first dispense mode) will be described below with reference to
FIG. 8 . In the dispensing, the banknotes stored in theinner storage unit 3 are fed, and travel through the loopedtransport path 41 in the reverse direction to reach therecognition unit 214. The banknotes handled by therecognition unit 214 are transported from the loopedtransport path 41 to theoutlet 212 through the dispense transport path 43 (see arrows inFIG. 8 ). - In the dispensing in the bulk handling mode (a second dispense mode), as shown in
FIG. 9 , the banknotes fed from theinner storage unit 3 are handled by therecognition unit 214, are transported to the stackingunit 5 through thefirst transport path 49, and are stacked in the stackingrecess 51. As described above, the capacity of the stackingunit 5 is larger than the capacity of thedispensing unit 213. Thus, even in dispensing more banknotes than those which can be stored in thedispensing unit 213, the stackingrecess 51 does not become full, and the dispensing is not interrupted. Even when the banknotes handled in the bulk handling mode are more than the banknotes which can be stacked in the stackingrecess 51, the dispensing can continue when the teller removes the banknotes stacked in the stackingrecess 51 before the stackingrecess 51 becomes full. Even when the stackingrecess 51 has become full, the dispensing can easily be restarted when the teller removes the stacked banknotes. - The capacity of the stacking
unit 5 is preferably twice or more as large as the capacity of thedispensing unit 213. Thus, the banknotes, which are many, and have to be removed from the dispensingunit 213 at at least two times, can all be removed from the stackingunit 5 at a time. - In this depositing and dispensing
machine 1, time required for the dispensing is less likely to increase even when a large amount of banknotes are dispensed at a time, thereby improving efficiency of the dispensing. - Although not shown, when a predetermined denomination is designated in the dispensing, some of the banknotes of the designated denomination are transported to the stacking
unit 5 through thefirst transport path 49 after being handled by therecognition unit 214, while the banknotes of the other denominations are transported to thedispensing unit 213 through the dispensetransport path 43. Thus, in the dispensing, for example, the banknotes can be sorted by denomination, and a large amount of the banknotes of the designated denomination can be dispensed with improved efficiency. The denomination of the banknotes to be transported to thedispensing unit 213 can also be designated. - In the dispensing, the amount of the banknotes to be dispensed is determined by operating the higher-ranking
terminal 6, or if necessary, the numbers of the banknotes of different denominations are determined by operating the higher-rankingterminal 6. Thus, the number of the banknotes to be dispensed is determined in advance. Therefore, the selection of the normal handling mode or the bulk handling mode, and the designation of the denomination of the banknotes to be stacked in the stackingunit 5 are not performed based on the operation for selection or designation through the higher-rankingterminal 6, but can automatically be performed based on the amount of the banknotes to be dispensed, or the designated numbers of the banknotes of different denominations. - When the above-described dispensing is performed, the numbers of the banknotes of the different denominations are subtracted from the inventory amount, thereby updating the inventory amount.
- The denomination of the banknotes has been described as the kind of the banknotes. However, the banknotes may be sorted by whether they are fit or unfit, or whether they are of national currency or foreign currency, etc. For example, this is effective for dispensing or collecting the banknotes sorted by kind, i.e., whether they are fit or unfit, or whether they are of national currency or foreign currency, from the dispensing
unit 213 or the outer stackingunit 5. - In the depositing and dispensing
machine 1, thedepositing unit 211 and thedispensing unit 213 are not limited to separate units. Thedepositing unit 211 and thedispensing unit 213 may be a single port as a depositing/dispensing unit. - In the above-described structure, the outer stacking
unit 5 is configured as the stackingunit 5 which is retrofitted to thecasing 11. This structure is advantageous because the stackingunit 5 can be retrofitted to the depositing and dispensingmachine 1 as needed according to change of the target to be handled, or the customer's request. However, the outer stackingunit 5 is not necessarily configured to be retrofitted to the casing. That is, the outer stackingunit 5 may be configured to be inseparable from thecasing 11. - The structure of the outer stacking unit is not limited to the above-described structure, and various types of structures can be employed. A different structure of the outer stacking unit will be described below with reference to the drawings.
-
FIG. 10 shows a stackingrecess 71 of an outer stackingunit 7, which is divided into two regions, i.e., arearward region 71 a, and aforward region 71 b, by adivider 73. InFIG. 10 , the outer stackingunit 7 is inseparable from thecasing 11. However, the outer stackingunit 7 may be configured as a stacking unit which can be retrofitted to thecasing 11. - In the outer stacking
unit 7, outlets through each of which the banknotes are dispensed are formed in a rear end of the stacking recess 71 (a right end inFIG. 10 ), and a front end of the stacking recess 71 (a left end inFIG. 10 ), respectively, and stackingwheels 72 which tap the banknotes dispensed through the outlets are provided in the outlets. In each of therearward region 71 a and theforward region 71 b, guideplates 74 configured to support the banknotes are attached to be movable in the stacking direction of the banknotes. - The
divider 73 is configured to be automatically or manually movable in the stacking direction (in the depth direction) in the stackingrecess 71. Changing the position of thedivider 73 can change the capacity ratio between therearward region 71 a and theforward region 71 b. - A
first transport path 49 is connected to the front outlet of the outer stackingunit 7, and asecond transport path 410 is connected to the rear outlet of the outer stackingunit 7. The first andsecond transport paths coupling transport path 411 anddiversion mechanisms 48 b. With the transport paths configured in this manner, the banknotes traveling from the front of therecognition unit 214 to the outer stackingunit 7 can be fed to both of therearward region 71 a and theforward region 71 b. Further, the banknotes traveling from the back of therecognition unit 214 to the outer stackingunit 7 can also be fed to both of therearward region 71 a and theforward region 71 b. - With the multiple stacking regions provided in the outer stacking
unit 7, the banknotes can be sorted in the depositing and the dispensing, for example, by denomination, whether they are fit or unfit, or currency (whether the banknotes are of national currency or foreign currency) in the outer stackingunit 7. This improves convenience. - In this structure, the depositing and dispensing
machine 1 checks the position of thedivider 73 to understand the capacity ratio between the stacking regions, and performs the control according to the capacity ratio. For example, the dispensing may be suspended when the banknotes may possibly exceed the capacities of the stacking regions. When one of the stacking regions is likely to become full during the dispensing, the position of thedivider 73 is automatically changed to change the capacity ratio to continue the dispensing. - As described above, the position of the
divider 73 may be preset in association with the customer information. When the account number is input, the position of thedivider 73 may automatically be changed, and the denomination of the banknotes to be stacked in the stacking regions may automatically be designated. The position of thedivider 73 may also be changed based on the number of the banknotes to be dispensed. -
FIG. 11 shows another different structure of the outer stacking unit. An outer stacking unit 8 includes two stackingregions regions casing 11, respectively. The tellers on the right and left sides of the depositing and dispensingmachine 1 can remove the banknotes from the right and left openings (outlets). With the provision of the multiple stackingregions regions - In the above-described structures, speed at which the banknotes are transported in the normal handling mode, and speed at which the banknotes are transported in the bulk handling mode may be different from each other. For example, in the bulk handling mode, the recognized banknotes are merely transported to the outer stacking unit. Thus, the transport speed in the bulk handling mode may be higher than the transport speed in the normal handling mode. This is advantageous because time required for handling a large amount of banknotes in the bulk handling mode, which is originally long, can be reduced.
- The depositing and dispensing machine described above is a banknote depositing and dispensing machine. However, the present invention can be applied to a coin depositing and dispensing machine.
FIG. 12 shows the coin depositing and dispensing machine. - Like the banknote depositing and dispensing
machine 1 described above, the coin depositing and dispensingmachine 10 includes adepositing unit 1211 having aninlet 1210 through which coins are introduced, arecognition unit 1214 configured to recognize and count the coins, adispensing unit 1213 having an dispensebox 1212 to which the coins are dispensed, aninner storage unit 1003 configured to store the coins, and atransport unit 1004 configured to transport the coins among the above-described units. - A
feeding belt 1041 configured to feed the introduced coins one by one is arranged on the bottom of theinlet 1210, and arecognition transport path 1042 is arranged to continue from the feeding belt. Therecognition unit 1214 is arranged in therecognition transport path 1042. - A
reject gate 1043 having an open/close mechanism (not shown) is arranged in therecognition transport path 1042 downstream of therecognition unit 1214 to divert reject coins etc. Arelay transport path 1044 configured to transport the coins in the horizontal direction (the vertical direction inFIG. 12 ) is provided below thereject gate 1043. Thereject gate 1043 is controlled to be open or closed in the bulk handling mode as described later. - A dispense
transport path 1045 configured to receive the coins from therelay transport path 1044, and transporting the coins forward (leftward inFIG. 12 ) is provided at a right end of the relay transport path 1044 (a lower end inFIG. 12 ). The dispensetransport path 1045 is connected to the dispensebox 1212 of thedispensing unit 1213. - A
diversion mechanism 1048 configured to change the destination of the coins between therelay transport path 1044 and the dispensetransport path 1045 is provided at a junction between therelay transport path 1044 and the dispensetransport path 1045. A right end of therelay transport path 1044 downstream of thediversion mechanism 1048 is connected to the outer stackingunit 1005. Thediversion mechanism 1048 is controlled by a controller which is not shown, thereby sending the coins to the dispensebox 1212 or the outer stackingunit 1005. - Although not shown, the outer stacking
unit 1005 has an outlet opened outside the casing. Thus, the coins stacked in the outer stackingunit 1005 can be removed directly from the outside of the casing without opening the casing. The capacity of the outer stackingunit 1005 is larger than the capacity of thedepositing unit 1211, and is larger than the capacity of the dispensebox 1212. Thus, in the depositing, there is no need to remove the coins at multiple times after single introduction of the coins to thedepositing unit 1211. To allow easy removal of the coins from the outer stackingunit 1005, although not shown, a box which can be drawn out etc. may be placed in the outer stackingunit 1005, and the box and the coins contained therein may be removed. - The
inner storage unit 1003 is provided in the casing which is not shown, and the coins stored in theinner storage unit 1003 cannot be removed unless the casing is opened. Theinner storage unit 1003 includes belt-shaped coin storing/feeding units 1031-1037 configured to store the coins of different denominations. The coin storing/feeding units 1031-1037 are aligned in the horizontal direction to be positioned belowsorters 1046 which are aligned in the horizontal direction, and correspond to different denominations, respectively. Each of thesorters 1046 has an open/close mechanism which is not shown. According to the denominations of the transported coins, thesorters 1046 are opened or closed to sort the coins by denomination. With the belt-shaped coin storing/feeding units 1031-1037 being driven, the coins which passed through thesorters 1046 are stored in the coin storing/feeding units 1031-1037. Alternatively, the coins are sent to therelay transport path 1044 with the coin storing/feeding units 1031-1037 being driven in the reverse direction. - A downstream end of the
sorters 1046 is connected to the outer stackingunit 1005. With all thesorters 1046 closed, the coins travel over the sorters, and are stacked in the outer stackingunit 1005. - In performing the depositing in the normal handling mode (a first deposit mode) in the coin depositing and dispensing
machine 10 described above, the coins introduced in theinlet 1210 are fed one by one by thefeeding belt 1041, and are recognized by therecognition unit 1214. The recognized coins are sent to theinner storage unit 1003 through therecognition transport path 1042, and are stored in the coin storing/feeding units 1031-1037 of the corresponding denominations based on the result of the recognition by therecognition unit 1214. - In performing the depositing in the bulk handling mode (a second deposit mode), the coins recognized by the
recognition unit 1214 do not enter thesorters 1046, and are directly transferred to the outer stackingunit 1005 to be stacked therein. - In the same manner as described above, the coins of a designated denomination may be stacked in the outer stacking
unit 1005, and the coins of the other denominations may be stored in theinner storage unit 1003 by opening/closing thesorters 1046. - In the above-described depositing of the coins, like the depositing of the banknotes, the deposit amount, the inner deposit amount stored in the inner storage unit, and the outer deposit amount stacked in the outer stacking unit are stored. Then, the inventory amount is updated, and the outer deposit amount is sent to the higher-ranking device.
- In performing the dispensing, the coins fed from the
inner storage unit 1003 are sent to the dispensetransport path 1045 through therelay transport path 1044. Then, the coins are dispensed in the dispensebox 1212 in the normal handling mode (a first dispense mode), or the coins are dispensed in the outer stackingunit 1005 in the bulk handling mode (second dispense mode) according to the control of thediversion mechanism 1048. In this case, the inventory amount is updated by subtracting the numbers of the dispensed coins of the different denominations from the inventory amount. - In the depositing, the capacity of the outer stacking
unit 1005 is preferably twice or more as large as the capacity of thedepositing unit 1211. This allows stacking of the coins twice as many as the coins which can be introduced in thedepositing unit 1211 at a time in the outer stackingunit 1005. This reduces the frequency of the removal of the stacked coins. - In the above-described structure, the outer stacking
unit 1005 is configured in such a manner that the coins are stacked at random. However, the coins may be aligned to be stacked in the shape of a column. - In the above example, the denomination of the coins has been described as the kind of the coins. However, like the banknotes, the coins may be sorted by whether they are fit or unfit, or whether they are of national currency or foreign currency, etc.
- Although not shown, in addition to the above-described structures of the banknote and coin depositing and dispensing
machines - As described above, the present invention can improve the efficiency of the transaction. Therefore, the present invention is useful as depositing machines, dispensing machines, and depositing and dispensing machines.
-
- 1 Banknote depositing and dispensing machine (money handling apparatus)
- 10 Coin depositing and dispensing machine (money handling apparatus)
- 11 Casing
- 1003 Inner storage unit
- 1004 Transport unit
- 1005 Outer stacking unit
- 1210 Inlet
- 1211 Depositing unit
- 1214 Recognition unit
- 25 Controller
- 26 Memory
- 210 Inlet
- 211 Depositing unit
- 212 Outlet
- 213 Dispensing part
- 214 Recognition unit
- 3 Inner storage unit
- 4 Transport unit
- 5 Outer stacking unit (stacking unit)
- 7 Outer stacking unit
- 8 Outer stacking unit
Claims (8)
1. A money handling apparatus, comprising:
a plurality of outlets configured to dispense money;
a recognition unit configured to recognize the money; and
a controller configured to selectively dispense the money recognized by the recognition unit through the plurality of outlets.
2. The money handling apparatus of claim 1 , wherein
the controller selects a destination of the money from the plurality of outlets according to the number of the money to be dispensed.
3. The money handling apparatus of claim 1 , wherein
when at least one of the outlets is unable to dispense the money, the controller selects a destination of the money from the outlets except for the at least one of the outlets.
4. The money handling apparatus of claim 1 , wherein
the plurality of outlets are removable.
5. The money handling apparatus of claim 1 , wherein
the controller receives an instruction from one of a plurality of higher-ranking terminals, and selects a destination of the money from the plurality of outlets according to from which of the higher-ranking terminals the instruction is input to the controller.
6. A method for handling money, comprising:
recognizing the money;
selecting, from a plurality of outlets, a destination of the recognized money according to the number of the money to be dispensed; and dispensing the money through the selected outlet.
7. A money handling apparatus, comprising:
an outlet configured to stack the money;
a transport unit configured to transport the money to the outlet; and
an open/close element configured to open/close the outlet, wherein
the open/close element opens the outlet when a predetermined number of the money is stacked in the outlet, and keeps the outlet closed when the predetermined number of the money is not stacked in the outlet.
8. A method for handling money, comprising:
transporting the money to an open/close outlet; and
opening the outlet when a predetermined number of the money is stacked in the outlet, and keeping the outlet closed when the predetermined number of the money is not stacked in the outlet.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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US14/644,478 US20150187157A1 (en) | 2008-10-28 | 2015-03-11 | Money handling apparatus |
US15/936,570 US10580246B2 (en) | 2008-10-28 | 2018-03-27 | Money handling apparatus |
US16/736,974 US11393273B2 (en) | 2008-10-28 | 2020-01-08 | Money handling apparatus |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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PCT/JP2008/003058 WO2010049968A1 (en) | 2008-10-28 | 2008-10-28 | Money handling apparatus |
US13/126,391 US9004350B2 (en) | 2008-10-28 | 2008-10-28 | Money handling apparatus |
US14/644,478 US20150187157A1 (en) | 2008-10-28 | 2015-03-11 | Money handling apparatus |
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Application Number | Title | Priority Date | Filing Date |
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PCT/JP2008/003058 Continuation WO2010049968A1 (en) | 2008-10-28 | 2008-10-28 | Money handling apparatus |
US13/126,391 Continuation US9004350B2 (en) | 2008-10-28 | 2008-10-28 | Money handling apparatus |
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US15/936,570 Continuation US10580246B2 (en) | 2008-10-28 | 2018-03-27 | Money handling apparatus |
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US20150187157A1 true US20150187157A1 (en) | 2015-07-02 |
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ID=42128347
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US14/644,478 Abandoned US20150187157A1 (en) | 2008-10-28 | 2015-03-11 | Money handling apparatus |
US15/936,570 Active US10580246B2 (en) | 2008-10-28 | 2018-03-27 | Money handling apparatus |
US16/736,974 Active 2029-02-05 US11393273B2 (en) | 2008-10-28 | 2020-01-08 | Money handling apparatus |
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US13/126,391 Active 2029-10-21 US9004350B2 (en) | 2008-10-28 | 2008-10-28 | Money handling apparatus |
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US15/936,570 Active US10580246B2 (en) | 2008-10-28 | 2018-03-27 | Money handling apparatus |
US16/736,974 Active 2029-02-05 US11393273B2 (en) | 2008-10-28 | 2020-01-08 | Money handling apparatus |
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US (4) | US9004350B2 (en) |
EP (1) | EP2355057A4 (en) |
WO (1) | WO2010049968A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20180300990A1 (en) * | 2015-10-13 | 2018-10-18 | Nautilus Hyosung Inc. | Medium handling apparatus and medium handling method |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2012198764A (en) * | 2011-03-22 | 2012-10-18 | Glory Ltd | Money processor |
JP5786694B2 (en) * | 2011-12-05 | 2015-09-30 | 沖電気工業株式会社 | Banknote handling equipment |
JP5821585B2 (en) * | 2011-12-05 | 2015-11-24 | 沖電気工業株式会社 | Banknote handling equipment |
DE102013021976A1 (en) * | 2013-12-20 | 2015-06-25 | Giesecke & Devrient Gmbh | Method and device for processing value documents |
EP2977967B1 (en) * | 2014-07-24 | 2018-10-10 | Wincor Nixdorf International GmbH | Method for feeding notes of value to an automated teller machine |
JP2017027198A (en) * | 2015-07-17 | 2017-02-02 | ローレルバンクマシン株式会社 | Paper sheet processor |
JP2019079252A (en) * | 2017-10-24 | 2019-05-23 | グローリー株式会社 | Medium processing device |
WO2019188880A1 (en) | 2018-03-26 | 2019-10-03 | グローリー株式会社 | Paper sheet processing device |
JP7051646B2 (en) * | 2018-08-31 | 2022-04-11 | 日立チャネルソリューションズ株式会社 | Paper leaf handling equipment, automated teller machines, and automated teller machines |
JP2021022037A (en) * | 2019-07-25 | 2021-02-18 | グローリー株式会社 | Paper sheet processing device |
Citations (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4363584A (en) * | 1979-09-25 | 1982-12-14 | Laurel Bank Machine Co., Ltd. | Paper sheet accumulator assembly and bank note dispenser provided therewith |
US4431178A (en) * | 1980-09-11 | 1984-02-14 | Laurel Bank Machine Co., Ltd. | Paper sheet accumulator assembly |
US4500002A (en) * | 1981-12-21 | 1985-02-19 | Musashi Co., Ltd. | Apparatus for sorting and counting a number of banknotes |
US4653647A (en) * | 1982-09-16 | 1987-03-31 | Tokyo Shibaura Denki Kabushiki Kaisha | Sorting and stacking apparatus |
US4830742A (en) * | 1983-04-04 | 1989-05-16 | Tokyo Shibaura Denki Kabushiki Kaisha | Apparatus for sorting sheets |
US4905839A (en) * | 1987-01-19 | 1990-03-06 | Kabushiki Kaisha Toshiba | Banknote account and arrangement apparatus |
US4980543A (en) * | 1983-01-26 | 1990-12-25 | Tokyo Shibaura Denki Kabushiki Kaisha | Multiple denominator bank note depositor/dispenser with automatic loading to and from storage section |
US5555983A (en) * | 1993-09-21 | 1996-09-17 | Kabushiki Kaisha Toshiba | Cash transaction apparatus |
US6502052B1 (en) * | 1998-02-19 | 2002-12-31 | Kabushiki Kaisha Toshiba | Note bundle managing apparatus to store and count note bundles |
US20050029168A1 (en) * | 2003-08-01 | 2005-02-10 | Jones William J. | Currency processing device, method and system |
US7195153B1 (en) * | 1999-12-03 | 2007-03-27 | Diebold, Incorporated | ATM with user interfaces at different heights |
US20070278138A1 (en) * | 2004-06-04 | 2007-12-06 | De La Rue International Limited | Document Sorting Machine |
US20080136096A1 (en) * | 2006-12-08 | 2008-06-12 | Crerar Roy A | Diverting stacker wheel |
US8274364B1 (en) * | 2008-07-31 | 2012-09-25 | Bank Of America Corporation | Selectable access to compartments in a cash handling device |
Family Cites Families (24)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3710976A (en) * | 1970-11-25 | 1973-01-16 | Digital Security Syst Inc | Currency dispenser |
JPS59102751A (en) * | 1982-11-30 | 1984-06-13 | Toshiba Corp | Paper sheet accumulator |
US4744468A (en) * | 1983-11-04 | 1988-05-17 | Laurel Bank Machine Co., Ltd. | Circulation-type bill receiving and dispensing machine |
SE456374B (en) * | 1984-11-16 | 1988-09-26 | Leif Lundblad | FOR INPUT OF BANKNOTES DEPENDED ATM |
JP2742355B2 (en) | 1992-07-31 | 1998-04-22 | ローレルバンクマシン株式会社 | Coin sorting equipment |
JP3414776B2 (en) * | 1992-12-21 | 2003-06-09 | グローリー工業株式会社 | Banknote depositing / dispensing method and depositing / dispensing machine |
JPH07234955A (en) | 1994-02-22 | 1995-09-05 | Toshiba Corp | Paper money processing device |
DE69513492T3 (en) * | 1994-05-20 | 2010-12-16 | Fujitsu Ltd., Kawasaki | DEVICE FOR PROCESSING AND MANAGING SHEETS |
US5871209A (en) * | 1996-03-01 | 1999-02-16 | Currency Systems International, Inc. | Cassette based document handling system |
JP4128244B2 (en) * | 1997-04-28 | 2008-07-30 | グローリー株式会社 | Money deposit / withdrawal processing system |
JP3533092B2 (en) | 1998-08-05 | 2004-05-31 | パイオニア株式会社 | Audio system |
JP4135238B2 (en) * | 1998-12-08 | 2008-08-20 | 日立オムロンターミナルソリューションズ株式会社 | Banknote deposit and withdrawal machine |
JP3537697B2 (en) | 1999-03-10 | 2004-06-14 | ローレルバンクマシン株式会社 | Banknote sorter |
KR100521713B1 (en) * | 1999-11-29 | 2005-10-14 | 후지쯔 가부시끼가이샤 | Sheet processing device |
EP1130551A3 (en) * | 2000-02-22 | 2004-01-21 | Glory Kogyo Kabushiki Kaisha | Bill handling machine |
JP4556309B2 (en) * | 2000-09-05 | 2010-10-06 | 沖電気工業株式会社 | Banknote deposit and withdrawal device |
KR100424425B1 (en) * | 2000-12-25 | 2004-03-24 | 가부시키가이샤 히타치세이사쿠쇼 | Bill receiving/dispensing machine |
JP3980297B2 (en) | 2001-07-10 | 2007-09-26 | ローレル精機株式会社 | Deposit / withdrawal machine |
JP4559697B2 (en) * | 2002-10-24 | 2010-10-13 | グローリー株式会社 | Circulating banknote deposit and withdrawal machine |
JP4362339B2 (en) * | 2003-09-16 | 2009-11-11 | 日立オムロンターミナルソリューションズ株式会社 | Banknote handling equipment |
JP4408373B2 (en) * | 2004-01-23 | 2010-02-03 | 日立オムロンターミナルソリューションズ株式会社 | Banknote deposit and withdrawal device |
ITTO20060176A1 (en) | 2006-03-09 | 2007-09-10 | Cts Cashpro Spa | AUTOMATIC THROUGH MACHINE AND CASH RESULT |
US7779982B2 (en) * | 2006-09-07 | 2010-08-24 | Cummins-Allison Corp. | Currency processing and strapping systems and methods |
US7992775B2 (en) * | 2006-11-10 | 2011-08-09 | Diebold Self-Service Systems Division Of Diebold, Incorporated | Automated banking machine apparatus controlled responsive to data bearing records |
-
2008
- 2008-10-28 WO PCT/JP2008/003058 patent/WO2010049968A1/en active Application Filing
- 2008-10-28 EP EP08877681A patent/EP2355057A4/en not_active Withdrawn
- 2008-10-28 US US13/126,391 patent/US9004350B2/en active Active
-
2015
- 2015-03-11 US US14/644,478 patent/US20150187157A1/en not_active Abandoned
-
2018
- 2018-03-27 US US15/936,570 patent/US10580246B2/en active Active
-
2020
- 2020-01-08 US US16/736,974 patent/US11393273B2/en active Active
Patent Citations (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4363584A (en) * | 1979-09-25 | 1982-12-14 | Laurel Bank Machine Co., Ltd. | Paper sheet accumulator assembly and bank note dispenser provided therewith |
US4431178A (en) * | 1980-09-11 | 1984-02-14 | Laurel Bank Machine Co., Ltd. | Paper sheet accumulator assembly |
US4500002A (en) * | 1981-12-21 | 1985-02-19 | Musashi Co., Ltd. | Apparatus for sorting and counting a number of banknotes |
US4653647A (en) * | 1982-09-16 | 1987-03-31 | Tokyo Shibaura Denki Kabushiki Kaisha | Sorting and stacking apparatus |
US4980543A (en) * | 1983-01-26 | 1990-12-25 | Tokyo Shibaura Denki Kabushiki Kaisha | Multiple denominator bank note depositor/dispenser with automatic loading to and from storage section |
US4830742A (en) * | 1983-04-04 | 1989-05-16 | Tokyo Shibaura Denki Kabushiki Kaisha | Apparatus for sorting sheets |
US4905839A (en) * | 1987-01-19 | 1990-03-06 | Kabushiki Kaisha Toshiba | Banknote account and arrangement apparatus |
US5555983A (en) * | 1993-09-21 | 1996-09-17 | Kabushiki Kaisha Toshiba | Cash transaction apparatus |
US6502052B1 (en) * | 1998-02-19 | 2002-12-31 | Kabushiki Kaisha Toshiba | Note bundle managing apparatus to store and count note bundles |
US7195153B1 (en) * | 1999-12-03 | 2007-03-27 | Diebold, Incorporated | ATM with user interfaces at different heights |
US20050029168A1 (en) * | 2003-08-01 | 2005-02-10 | Jones William J. | Currency processing device, method and system |
US20070278138A1 (en) * | 2004-06-04 | 2007-12-06 | De La Rue International Limited | Document Sorting Machine |
US20080136096A1 (en) * | 2006-12-08 | 2008-06-12 | Crerar Roy A | Diverting stacker wheel |
US8274364B1 (en) * | 2008-07-31 | 2012-09-25 | Bank Of America Corporation | Selectable access to compartments in a cash handling device |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20180300990A1 (en) * | 2015-10-13 | 2018-10-18 | Nautilus Hyosung Inc. | Medium handling apparatus and medium handling method |
Also Published As
Publication number | Publication date |
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WO2010049968A1 (en) | 2010-05-06 |
US10580246B2 (en) | 2020-03-03 |
US11393273B2 (en) | 2022-07-19 |
US20180218556A1 (en) | 2018-08-02 |
US20200143618A1 (en) | 2020-05-07 |
US20110202173A1 (en) | 2011-08-18 |
US9004350B2 (en) | 2015-04-14 |
EP2355057A4 (en) | 2013-01-23 |
EP2355057A1 (en) | 2011-08-10 |
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