JPWO2012073613A1 - Automatic transaction equipment - Google Patents

Abstract

Provided is an automatic transaction apparatus capable of processing a banknote determined to be abnormal to become a normal banknote during transport and reducing the number of banknotes transported to an unknown ticket transport destination. The control unit of the banknote depositing / dispensing machine creates medium management information based on the result supplied from the discrimination unit in the movement of the banknote from the storage unit of the movement source to the temporary holding unit, and writes the created medium management information and A plurality of motors corresponding to the abnormal banknote transport process based on the medium management information read out in the process of controlling the reading and moving the banknotes one by one from the temporary holding unit to the empty storage unit at the destination , And the banknotes to be conveyed are discriminated by the discrimination unit, and the banknotes in which the result of the discrimination shows an abnormality are conveyed to the special banknote storage unit.

Description

  The present invention relates to an automatic transaction apparatus, and in particular, the automatic transaction apparatus is suitable for application to an automatic teller machine (ATM) or an automatic teller machine, and is unknown in automatic scrutiny of banknotes. It is an ATM device with a control function to reduce the number of tickets.

  Conventionally, as an ATM device, as shown in Japanese Patent Application Laid-Open No. 2010-108160, a plurality of storage units that store money deposited from a money receiving unit and money to be withdrawn, and a discrimination unit that discriminates and counts money. A device has been proposed that automatically has transactions with customers. In this device, when money is examined, one of the storages is emptied without storing any money, and the money stored in one of the other storages is sent to the discrimination unit for discrimination and counting. After that, a new empty storage is created by storing it in an empty storage, and the money in all storages is discriminated and counted by the same operation. Investigate the banknotes without counting them. In this way, it is proposed to eliminate human error such as counting mistakes of banknotes by an attendant, and to improve the work efficiency by eliminating the trouble of counting banknotes by an attendant.

  For example, when an operator moves a bill by a predetermined operation in the ATM device, the bill cannot be moved directly from the movement source cassette to the movement destination cassette. The banknotes are fed out one by one from the banknote storage, which is a movement source cassette, and sent to the recognition unit or the discrimination unit via the transport path. The recognizing unit sends the banknotes recognized as normal to the temporary storage unit and holds them, and the banknotes recognized as abnormal are transported to the RJ (ReJect) warehouse, which is the destination cassette of the unknown ticket transport destination, and accumulated. . The temporary holding unit conveys and accumulates the normal banknotes that are held to a collection box that is a destination cassette.

  However, it is conceivable that RJ bills are generated depending on the state of accumulation of bills in the moving cassette and the state of wear of the separation mechanism in the temporary storage unit. This is because the banknote is separated from the transmission source cassette described above, and at least a part of the banknotes is transported in an overlapping manner, and the banknotes are continuously (from the interval between banknotes in a normal transport state). This means that so-called “dead money” banknotes that are transported to an unknown ticket transport destination increase due to the chain being transported at a narrow interval. It is also conceivable that a paper jam or jam that is a state in which the banknote is jammed on the conveyance path due to the bending or skew of the banknote. If the bent banknote is removed in order to prevent such occurrence, the number of “dead money” banknotes conveyed to the unknown ticket destination increases.

  In view of such a situation, the present invention treats a banknote determined to be abnormal to become a normal banknote during transport, and can reduce the number of banknotes transported to an unknown ticket transport destination. I will provide a.

  One aspect of the present invention is an automatic transaction apparatus that handles banknotes, a plurality of storage units that store banknotes, a special banknote storage unit that stores special banknotes detected by depositing or dispensing, While connecting a storage part and the special banknote storage part, the conveyance path which conveys a banknote, the discrimination part which distinguishes the characteristic which the banknote conveyed in the said conveyance path has, and the temporary storage part which temporarily holds the said identified banknote And a customer service unit for separating banknotes inserted by a customer one by one and feeding them to the transport path and collecting banknotes delivered to the customer transported through the transport path; A plurality of detection units for detecting presence / absence, a plurality of driving units for driving a transport mechanism for transporting the banknotes on the transport path, and a drive signal for generating a drive signal to be supplied to the plurality of drive means according to a control signal A storage unit that stores medium management information indicating whether the generated banknote is a normal banknote or an abnormal banknote and loads an application program for controlling the operation of the automatic transaction apparatus for execution And a control unit that controls the plurality of detection units, the discrimination unit, the drive signal generation unit, and the storage unit, the control unit from the storage unit of the movement source to the temporary storage unit When the bill is moved, the medium management information is created based on the result supplied from the discrimination unit, the writing and reading of the created medium management information to the storage unit are controlled, and the temporary holding unit In the process of moving the banknote to the storage unit in the empty state of the movement destination, the plurality of driving units are configured to perform normal banknote transport processing and abnormal banknote transport processing based on the read medium management information. The control signal of the drive generation unit is generated so as to move, and in the abnormal banknote transport process, the control signal is generated so as to eliminate the abnormal state of the banknote, and the plurality of drive units The normal banknotes are conveyed to the destination storage unit, the banknotes that have been subjected to the abnormal banknote transport process are identified by the discrimination unit, and the banknotes that have been identified as abnormal are indicated in the special banknote storage unit. It is transported.

  The control unit may be configured to determine whether the banknote is in a normal state, a heavy run, a complete heavy run, a chain, or a paper jam based on detection information from the plurality of detection units. Good.

  When the control unit determines that the banknote is completely heavy-running, the control unit is configured to control the conveyance path with a control that slowly conveys the banknote that has been completely heavy-run by the first drive unit among the plurality of drive units. The first drive unit is transported in a moving direction, sent to a region transported by a second drive unit among the plurality of drive units by a predetermined amount, and stopped after the first drive unit is stopped. Of the third drive unit that rotates at a normal rotation speed among the plurality of drive units by rotating the second drive unit in the direction of the moving destination, and rotating the second drive unit in the direction of the movement destination. In this case, the sheet is conveyed by a predetermined amount, the second driving unit is stopped, and only the third driving unit is rotated to separate only one sheet.

  When the control unit determines that the paper is jammed in the transport path based on detection information supplied from the plurality of detection units, the control unit transports all the banknotes on the transport path to the temporary storage unit again. May be configured to attempt automatic recovery.

  In the driving of the plurality of driving units, the control unit has a rotational speed and a rotation direction of each driving unit such that a speed difference is generated in each of the plurality of driving units in order to eliminate heavy running, chaining, and skew. May be configured to adjust.

  The control unit determines that the paper is jammed in the conveyance path based on the detection information supplied from the plurality of detection units, and reliably separates the sheets one by one even if the peeling control is performed at a slower speed than usual. However, it may be configured to attempt automatic recovery by transporting only the banknotes in the vicinity where the paper jam has occurred to the special banknote storage unit and returning the remaining banknotes to the original storage unit again. .

  The plurality of drive units may be adjusted in rotation speed and rotation direction of individual drive units under the control of the control unit.

  According to the automatic transaction apparatus of one aspect of the present invention, even if abnormal banknotes are generated by separation from the storage unit at the movement source and accumulated in the temporary storage unit, they are separated one by one by separation from the temporary storage unit. Separate them so that they do not become abnormal banknotes. As a result, it is possible to reduce the banknotes conveyed to the special banknote storage unit of the unknown ticket transport destination, so-called death.

It is a block diagram which shows the schematic structure of the banknote depositing / withdrawing machine in the ATM apparatus to which the automatic transaction apparatus which concerns on embodiment of this invention is applied. 3 is a flowchart showing an operation procedure of a main routine in the ATM apparatus of FIG. It is a flowchart which shows the operation | movement procedure of the automatic inspection utility in the main routine of FIG. It is a flowchart which shows the operation | movement procedure of the banknote conveyance to the temporary storage part from the movement origin in the automatic inspection utility of FIG. It is a figure which shows the direction and path | route where a banknote is conveyed when paying attention to a conveyance path according to the operation | movement procedure of FIG. It is a flowchart which shows the operation | movement procedure of the banknote classification | category conveyance from the temporary storage part to a movement destination in the automatic inspection utility of FIG. It is a figure which shows the direction and path | route by which the banknote at the time of paying attention to a conveyance path according to the operation | movement procedure of FIG. It is a figure which shows a state when the detailed examination of a banknote is completed with respect to one accommodating part in the operation | movement procedure of FIG. It is a flowchart which shows the operation | movement procedure of the banknote classification | category conveyance from the temporary storage part including the complete heavy run in the automatic inspection utility of FIG. 6 to a movement destination. FIG. 7 is a diagram illustrating a state when a paper jam occurs in the operation procedure of FIG. 6. FIG. 11 is a diagram illustrating a conveyance direction and a path of automatic recovery when the paper jam of FIG. 10 is severe and attention is paid to the conveyance path.

<First embodiment>
Next, a first embodiment of an automatic transaction apparatus according to the present invention will be described in detail with reference to the accompanying drawings. Referring to FIG. 1, a first embodiment of an automatic transaction apparatus according to the present invention is a bill depositing / dispensing machine 10 in an ATM apparatus. The banknote depositing / dispensing machine 10 includes a plurality of storage units 18, 20, 22, 24, and 26 that store banknotes, and a special banknote storage unit 28 that stores special banknotes detected by depositing or dispensing. A plurality of storage units 18, 20, 22, 24, and 26 and a special banknote storage unit 28 are connected by a transfer path 46 for transferring banknotes. In the transport path 46, the banknotes are discriminated by the discrimination unit 16 that discriminates the characteristics of the transported banknotes, and the banknotes are stored in the temporary storage unit 14 that temporarily holds the banknotes identified through the transport path 46. The banknotes inserted by the customer are separated one by one and fed out to the transport path 46, and the banknotes are traded at the customer service unit 12 that accumulates banknotes delivered to the customer transported through the transport path 46.

  The banknote depositing / dispensing machine 10 stores medium management information including the status of banknotes and characteristic parameters for the banknotes in a memory, and loads an application program for controlling the operation of the apparatus for execution. The control unit 40 controls the plurality of medium detection sensors 32a to 32x, the discrimination unit 16, the driver 44, and the memory 42. In the transport path 46, a plurality of medium detection sensors 32a to 32x detect the presence or absence of banknotes. Drive signals 52, 54 and 56 to be supplied to the plurality of motors 34, 36 and 38 by the driver 44 are generated in accordance with the control signal 50, and the plurality of motors 34, 36 and 38 drive the conveyance mechanism on the conveyance path 46. The bills.

  The control unit 40 of the banknote depositing / dispensing machine 10 creates the medium management information 58 based on the result supplied from the discrimination unit 16 when moving the banknote from the storage unit 24 of the movement source to the temporary storage unit 14. The writing and reading of the created medium management information 58 are controlled. In the process of moving the banknotes one by one from the temporary holding unit 14 to the empty storage unit 26 at the destination, normal banknote transport processing and abnormal banknote transport processing are performed based on the read medium management information 58. The control signal 50 of the driver 44 is generated so as to drive the plurality of motors 34, 36 and 38. Further, in the abnormal banknote transport process, the control signal 50 is generated so as to eliminate the abnormal state of the banknote. A normal banknote is transported to the destination storage unit 26 by driving the plurality of motors 34, 36 and 38. The banknotes that have been subjected to the abnormal banknote transport process are discriminated by the discrimination section 16, and the banknotes that have been shown to be abnormal are conveyed to the special banknote storage section 28. Thus, for example, even if abnormal banknotes are generated by separation from the storage unit 24 at the movement source and are accumulated in the temporary storage unit 14, they are separated and separated one by one in the movement from the temporary storage unit 14 to form abnormal banknotes. By avoiding this, it is possible to reduce the banknotes conveyed to the special banknote storage unit 28 of the unknown ticket transport destination, so-called death.

  As shown in FIG. 1, the banknote depositing and dispensing machine 10 in the ATM device includes a customer service unit 12, a temporary storage unit 14, a discrimination unit 16, storage units 18, 20, 22, 24 and 26, special banknote storage units 28 and 30, It includes medium detection sensors 32a to 32x, motors 34, 36 and 38, a control unit 40, a memory 42 and a driver 44. In addition, the banknote depositing / dispensing machine 10 includes a customer service unit 12, a temporary storage unit 14, a discrimination unit 16, storage units 18, 20, 22, 24 and 26, and special banknote storage units 28 and 30 via a conveyance path 46. It is connected. The banknote depositing / dispensing machine 10 is also called a reflux depositing / dispensing machine (BRM: Bill Recycle Module).

  The customer service unit 12 has a function of separating banknotes deposited by a customer and accumulating banknotes dispensed to the customer. The customer service unit 12 includes a banknote separating mechanism and a banknote feeding mechanism (not shown). The customer service unit 12 also has an input unit for inputting the deposit amount, a display unit for displaying the withdrawal amount, and an outlet for taking in and out banknotes and coins.

  The temporary storage unit 14 is a storage unit or a storage region that temporarily stores normally verified banknotes among banknotes deposited by the customer. The temporary storage unit 14 has a cylindrical storage unit as indicated by a broken line, and stores the banknotes around the storage unit.

  The discriminating unit 16 has a function of discriminating the authenticity, correctness, denomination, etc. of banknotes deposited by the customer or banknotes withdrawn to the customer. The discrimination unit 16 determines authenticity using various sensors that use conventional magnetic characteristics, for example. The discrimination unit 16 discriminates banknotes one by one, and supplies the discrimination result as discrimination data to the control unit 40 via the signal line 48.

  The storage units 18, 20, 22, 24, and 26 are storage cabinets or cassettes that store banknotes deposited by customers, banknotes withdrawn to customers, and banknotes withdrawn from other storage units, respectively. It is. The special banknote storage units 28 and 30 are storage boxes or cassettes that store special or abnormal banknotes detected by deposit or withdrawal.

  Although not shown, the storage units 18, 20, 22, 24 and 26 and the special banknote storage units 28 and 30 are provided with sensors for detecting whether or not the banknotes are in an empty state. This sensor notifies the control unit 40 of the detected result.

  The medium detection sensors 32a to 32x are arranged at predetermined positions on the transport path 40 and have a function of detecting the presence or absence of banknotes passing through the transport path 40. The medium detection sensors 32a to 32x detect the presence or absence of banknotes based on the difference in the amount of received light. In order to realize this detection, the medium detection sensors 32a to 32x form a pair of photosensors using light emitting diodes and phototransistors. The light emitting diode is disposed on the light emitting side, and the phototransistor is disposed on the light receiving side. The medium detection sensors 32a to 32x basically have a small amount of received light because the optical path is blocked when a bill is present, and a large amount of received light because the optical path is not blocked when there is no bill. Therefore, the control unit 40 in the ATM apparatus determines whether the signal level indicating the amount of received light from the medium detection sensors 32a to 32x is greater than the signal level indicating the predetermined amount of received light. The presence / absence of a banknote at the 32x placement position is determined to determine whether the banknote status is normal, heavy running, complete heavy running, chained, or paper jam. In particular, the six medium detection sensors 32t to 32x and 32l function as delivery sensors, and the six medium detection sensors 32g to 32k and 32m function as integrated sensors disposed inside the cassette.

  Here, the triangle described in FIG. 1 represents the direction of light emission and light reception, for example. The medium detection sensors 32a to 32s supply each detection signal to the control unit 40 via the signal line 48.

  The motors 34, 36, and 38 are used for stacking banknotes in the temporary storage unit 14 and separating the banknotes from the temporary storage unit 14. Drive signals 52, 54 and 56 generated by the driver 44 in response to the control signal 50 from the control unit 40 are supplied to the motors 34, 36 and 38. The motors 34, 36 and 38 are driven according to the supplied drive signals 52, 54 and 56. The motors 34, 36 and 38 sort the banknotes by driving them and collecting the banknotes or storing them in a predetermined storage. In addition, the motors 34, 36 and 38 can be individually adjusted in rotational speed and rotational direction so as to cause a speed difference in the rotational speed of the motor in order to eliminate heavy running and chaining.

  The control unit 40 activates and executes an automatic scrutiny program or utility that is assembled in advance as an application, and checks whether the banknotes are abnormal one by one according to the detection results of the installed medium detection sensors 32a to 32s and the result of the discrimination unit 16. A function of determining whether or not, managing the determined information, and controlling the operation of the banknote depositing and dispensing machine 10 based on the determined information. The control unit 40 is, for example, a CPU (Central Processing Unit). The automatic scrutiny program or utility may be built in the control unit 40 itself and activated and executed. However, in this embodiment, the program is stored in advance in a storage medium such as a hard disk device (not shown), and in response to the activation request. For example, the memory 42 is loaded and started as application software, and automatic scrutiny is executed via the control unit 40.

  In particular, in the present embodiment, the control unit 40 generates a control signal 54 for controlling the driving of the motors 34, 36 and 38 based on the determined information. The control unit 40 outputs a control signal 50 to the driver 44. In addition, the control unit 40 supplies information 58 on whether or not there is an abnormality with respect to the banknotes accumulated in the temporary storage unit 14 one by one to the memory 42 and writes the information. When the banknotes accumulated in the temporary storage unit 14 are classified, the control unit 40 reads the information 58 stored in the memory 42 and generates a control signal 50 corresponding to normality / abnormality indicated by the information 58. The control unit 40 outputs the generated control signal 50 to the driver 44.

  The memory 42 has a function of storing information. The memory 42 stores information 58 as to whether or not there is an abnormality with respect to the banknote supplied from the control unit 40 in the order of accumulation, and reads the accumulated information 58 to the control unit 40. As described in the control unit 40, the memory 42 has a capacity for loading and executing application software (programs).

  The driver 44 has a function of generating a drive signal in accordance with the supplied control signal. In this embodiment, the driver 44 generates drive signals 52, 54 and 56 for driving the motors 34, 36 and 38 according to the control signal 50, and the drive signals 52, 54 and 56 generated for the motors 34, 36 and 38. Supply.

  Next, the operation of the bill depositing / dispensing machine 10 will be described. An employee (operator) turns an audit key of an ATM device (not shown) to set the ATM device to a supervisor mode as shown in FIG. With this setting, the ATM device stops handling (step S10). At this time, the banknote depositing / dispensing machine 10 counts banknotes and loads the storage units 18 to 26 with the number of banknotes determined by counting.

  Next, a maintenance utility that is an application is started (step S12). The banknote depositing / dispensing machine 10 sets priority or degeneration function restriction on separation / stacking for each storage unit with respect to the storage units 18 to 26 so that any of the storage units 18 to 26 is empty. Note that degeneration is a state in which some functions are not used. For example, when separation priority / accumulation degeneration and function restriction are set for the storage unit 26, the storage unit 26 is not used for storing banknotes deposited by customers, but only for withdrawals to customers. After this setting is completed, the ATM device audit key is turned to start handling the ATM device (step S14).

  After the work is completed, the operator turns the audit key of the ATM device again to change to the supervisor mode and stops handling the ATM device (step S16).

  Next, an automatic inspection utility that is an application is started (step SUB1). At the time of activation, an automatic scrutiny execution button is pressed. Heavy running banknotes and chained banknotes as abnormal banknotes are generally referred to as reject (RJ) banknotes.

  Next, the RJ bills conveyed to the temporary storage unit 14 are automatically scrutinized (subroutine SUB1). As shown in FIG. 3, the automatic scrutiny is performed by transporting banknotes from the source storage unit to the temporary storage unit 14 (subroutine SUB2) and from the temporary storage unit 14 to the destination storage unit (subroutine SUB3). ) Are executed sequentially.

  After transport from the temporary holding unit 14 to the destination storage unit (subroutine SUB3), the process proceeds to a full determination process for the destination storage unit (sub-step SS10).

  Next, it is determined whether or not the destination storage unit 26 is full (sub-step SS10). When the destination storage unit 26 is full (YES), the storage unit 26 displays full, stops the operation, returns, and ends the examination process. If the destination storage unit 26 is not full (NO), the process proceeds to the full banknote determination process of the special banknote storage unit 28 (to sub-step SS12).

  The full banknote determination processing of the special banknote storage unit 28 determines whether or not the special banknote storage unit 28 is full (sub step SS12). When the special banknote storage unit 28 is full (YES), the special banknote storage unit 28 displays full, stops the operation, returns, and ends the examination process. If the special banknote storage unit 28 is not full (NO), the process proceeds to a determination process as to whether or not the source storage unit 24 is empty (goes to sub-step SS14).

  Next, it is determined whether or not the source storage unit is empty (sub-step SS14). In this embodiment, when the storage unit 24 is empty (YES), it is determined that the detailed inspection for the storage unit 24 has been completed, and the process proceeds to the process for the next transfer source storage unit. Further, when banknotes are present in the storage unit 24 (NO), the process returns from the original storage unit 24 to the temporary storage unit 14 (subroutine SUB2) to return from the original storage unit 24 to the temporary storage unit 14. The conveyance (subroutine SUB2) and the conveyance (subroutine SUB3) from the temporary storage unit 14 to the destination storage unit 26 or the special banknote storage unit 28 are repeated.

  Although not shown, when another storage unit storing banknotes in an unidentified state is present as a movement source, for example, one other storage unit 18, 20 and 22 is also free. It is possible to repeat the above-described scrutiny operation procedure by setting a storage unit that is a destination storage unit. That is, the classification process is repeated three times for the banknotes stored in the unidentified storage unit in the empty storage unit, and the counting operation for the unidentified storage unit after the end of the work is completed. With this completion, the transfer process from the temporary storage unit 14 to the destination storage unit is returned and terminated. Along with this, the operation of the automatic scrutiny utility is returned and the operation of the basic routine in the ATM device is also terminated.

  Further, the RJ banknotes conveyed to the special banknote storage unit 28 are counted manually by a clerk (operator).

  Next, the transport from the movement source storage unit to the temporary storage unit 14 will be described with reference to FIG. 4 (subroutine SUB2).

  Here, the banknote depositing / dispensing machine 10 according to the present embodiment exemplifies the case of handling the banknote of the People's Republic of China, the renminbi, for example, the 10-yuan banknote in the storage section 18, the 20-yuan banknote in the storage section 20, 100 yuan banknotes are stored in 50 yuan banknotes and storage unit 24, respectively. The storage unit 26 is in an empty state. Moreover, the automatic scrutiny utility does not set the degeneration of the movement source, the movement destination storage unit or the cassette. The automatic scrutinizing utility for the application loaded in the memory 42 notifies the controller 40 of the banknote depositing / dispensing machine 10 of data indicating a condition not to set the degeneration and writes the data (substep SS16). The bill deposit / withdrawal machine 10 returns a response RSP (ReSPonse) to the data write from the control unit 40 to the memory 42 (sub step SS18).

  In response to the response RSP, the automatic scrutinizing utility outputs a command CMD (CoManD) for moving the banknote from the memory 42 to the control unit 40 (substep SS20).

  Here, the command CMD is a content for setting the number of moving sheets 200, the movement source storage unit 24, the movement destination storage unit 26, and the movement destination of the unknown bill or RJ banknote in the special bill storage unit 28.

  Upon receiving the command CMD, the control unit 40 controls the conveyance of banknotes from the original storage unit to the temporary storage unit 14 (substep SS22). The banknote depositing / dispensing machine 10 separates the banknotes stored in the storage unit 24 one by one, feeds them to the transport path 46, and sends them to the discrimination unit 16 for discrimination (substep SS24).

  When the result of discriminating the banknote in the discrimination unit 16 is normal, the banknote is conveyed to the temporary storage unit 14. Further, even when the discrimination result is abnormal, the banknote is conveyed to the temporary storage unit 14 as an RJ banknote. The discrimination unit 16 supplies not only normal / abnormal banknotes identified by the control unit 40 but also banknote parameters. At this time, the control unit 40 creates the medium management information 58 for each banknote accumulated in the temporary storage unit 14 and stores it in the memory 42 (substep SS26).

  Here, the medium management information 58 is a parameter supplied to the control unit 40 as a discrimination result of the accumulated banknotes. Specifically, the denomination and length, and the banknote transport state are normal banknotes, heavy runs Information including banknotes and chained banknotes.

  The banknote in the banknote depositing / dispensing machine 10 moves from the storage unit 24 to the temporary holding unit 14 along the conveyance path indicated by the arrows 60, 62 and 64 in FIG. The number of banknotes to be moved may be operated several times or according to the accumulation capacity of the temporary storage unit 14, or if there is a large amount of storage, all the banknotes in the storage unit 24 are transported at a time. Also good.

  It is determined whether or not the separation of the designated number of sheets from the storage section 24 has been completed, that is, whether or not the conveyance has been completed (substep SS28). If not finished, continue the separation. Further, in the case of completion, the process returns and the conveyance of banknotes from the original storage unit to the temporary storage unit 14 is completed.

  Next, the normal banknotes / RJ banknotes accumulated in the temporary storage unit 14 will be described with reference to FIG. 6 with respect to the conveyance to the destination storage unit (subroutine SUB3). This conveyance process is a process in which the banknotes accumulated in the temporary storage unit 14 are separated one by one, fed out to the conveyance path 46, classified, and supplied to each unit. In this process, first, the control unit 40 reads the medium management information 58 stored in the memory 42 in the reverse order of the banknote storage order (sub step SS30).

  Next, it is determined whether or not the bill to be fed is normal based on the read medium management information 58 (substep SS32). When the information 58 indicates that the banknote is normal (YES), the control unit 40 is configured so that the banknotes accumulated in the temporary storage unit 14 are separated from each other, in particular, the motors 34, 36, and 38, at a normal separation speed / control. Is controlled (sub-step SS34). By this control, the accumulated banknotes are fed out to the conveyance path 46 and conveyed to the storage unit 26. As shown in FIG. 7 focusing on the conveyance path 46, the banknotes in the banknote depositing / dispensing machine 10 move from the temporary storage unit 14 to the storage unit 26 along the conveyance paths indicated by the arrows 66, 68 and 70.

  Further, when the medium management information 58 indicates a banknote abnormality (NO), the process proceeds to specification of the type of abnormality (to sub-step SS36).

  It is determined whether or not the abnormal banknote is a heavy-running banknote (substep SS36). When the medium management information 58 indicates a heavy run banknote (YES), the process proceeds to the heavy run banknote separation process (to sub-step SS38). When the medium management information 58 does not indicate a heavy banknote (NO), the process proceeds to a determination process of whether or not it is a chained banknote (to sub-step SS40).

  Next, it is determined whether or not it is a linked banknote (substep S40). When the medium management information 58 indicates a chained banknote (YES), the process proceeds to the heavy-running banknote separation process (to sub-step SS38). If the medium management information 58 does not indicate a chained banknote (NO), the process proceeds to a corresponding process other than heavy running and chaining (to sub-step SS42). This handling process includes a skew banknote handling process, which will be described later.

  In the case of heavy-running banknotes, the section that is regarded as dangerous for the transport path 46 in the heavy-running banknote separation process (sub-step SS38) is slowly peeled off at a lower transport speed than the normal separation speed / control. While separating, one by one. In the slow peeling control in heavy running, the conveyance speed of the abnormal banknote is set to be lower than the normal conveyance speed and higher than the conveyance speed in the slow peeling control in the close (complete) heavy running described later.

  In this separation process, the control unit 40 controls the motor 34 to rotate at a low speed, and feeds the heavy-running banknote into the conveyance area of the motor 36 that rotates at a medium rotational speed than the motor 34. The heavy running banknotes reduce the overlapping degree of heavy running banknotes due to the speed difference between the motor 34 and the motor 36. Thereafter, the control unit 40 controls the motor 36 to stop when it is transported by a certain amount to the transport region of the motor 38 that rotates at high speed. As a result, only one sheet is separated by the rotation of the motor 38 and fed out to the conveyance path 46.

  Further, even in the case of a banknote with a short bill interval, the degree of approach is reduced by the same control as the heavy run separation process (sub-step SS38), the sheets are reliably separated one by one and fed out to the transport path 46.

  A more specific heavy-running banknote separation process will be described (substep SS38). Two sets of abnormal banknotes and normal banknotes are wound and accumulated in this order along with the belt on the cylindrical body provided in the temporary storage unit 14. However, since the abnormal banknotes are three heavy runs, substantially four temporary banknotes 14 are stored.

  When separation is started, the control unit 40 controls the motors 38, 36, and 34 to be driven in this order. The drive control starts the motor 38, starts the motor 36 at high speed, and finally starts the motor 34 at high speed. Next, since the first set is a normal banknote, separation is performed at a normal separation speed by a normal motor drive control.

  Since the second set of banknotes is a heavy-running banknote, when the first set of banknotes is out of the transport range by the motor 36, the control unit 40 stops the motor 34 from a low speed and changes the rotation speed of the motor 36. Control to decrease. As described above, the heavy banknote is peeled off by the speed difference between the low speed motor 34 and the medium speed motor 36. Further, before the separation in the danger zone, the control unit 40 performs control so that the drive of the motor 36 is stopped. This stop waits until the banknotes on the conveyance path 46 within the conveyance range of the motor 38 are exhausted after the identification unit 16 performs the identification. When the banknotes on the transport path 46 run out, the control unit 40 controls the motor 36 to be driven at a medium speed.

  Then, when the heavy banknote is fed into the conveyance range of the motor 38 by a predetermined amount, the control unit 40 performs control so as to stop the driving of the motor 36. Since the motor 38 is driven at a predetermined rotational speed, the first heavy-running banknote is separated. The process waits until the separated first banknote passes through the discrimination section 16 and disappears from the conveyance path 46 in the conveyance range of the motor 38.

  The controller 40 controls the motor 36 to be driven at a medium speed after the first banknote separated from the transport path 46 within the transport range of the motor 38 is exhausted. Again, when the heavy bill is fed into the transport range of the motor 38 by a predetermined amount, the control unit 40 controls to stop driving the motor 36. The second sheet of heavy-running banknotes is separated by the difference in rotational speed between the stop of the motor 36 and the driving of the motor 38. It waits until the second heavy running banknote passes through the discrimination of the discrimination unit 16 and the banknotes on the transport path 46 within the transport range of the motor 38 run out.

  When there are no more bills, the control unit 40 controls the motor 36 to be driven at a medium speed. As in the past, the third heavy bill is fed into the transport range of the motor 38 by a predetermined amount. At this time, the control unit 40 controls the motor 36 to stop driving and separates the third banknote. It waits until the separated third banknote passes through the discrimination section 16 and disappears from the conveyance path 46 within the conveyance range of the motor 38.

  In addition, when it is found from the memory 42 that the third sheet of the heavy running banknote is the last one, the motors 36 and 38 are simply driven through the discrimination section 16 until the banknotes on the transport path 46 are exhausted, and then stopped. You may let them.

  Thereafter, the control unit 40 stops driving the motor 38 because there is no banknote in the temporary storage unit 14.

  After receiving this heavy running banknote separation process, the banknotes with normal discrimination results in the above-described discrimination section 16 are conveyed to the storage section 26 along the arrow 70 in FIG. When the discrimination result is an RJ banknote, the RJ banknote is transported to the special banknote storage unit 28 via the transport path 46 as indicated by an arrow 72 in FIG.

  Returning to FIG. 6, it is determined whether or not the banknote conveyance from the temporary storage unit 14 is completed (sub-step SS44). When the banknote conveyance from the temporary storage unit 14 is incomplete (NO), the process returns to the banknote normality determination process (to sub-step SS32). When the banknote transport from the temporary storage unit 14 is completed (YES), it is assumed that all the banknotes currently stored in the temporary storage unit 14 have been transported to the storage unit 2 at the destination, and the process returns and ends the subroutine SUB3. To do.

  At this time, as shown in FIG. 8, the banknote depositing / dispensing machine 10 makes the storage unit 24 of the movement source empty and stores the 100-yuan banknote in the storage unit 26 of the movement destination.

  When operated in this way, even if heavy running occurs due to separation from the storage unit 24, for example, and heavy running bills are accumulated as RJ bills in the temporary holding unit 14, separation from the temporary holding unit 14 It can be peeled and separated one by one so that it does not become RJ banknotes due to heavy running. Thereby, money which is conveyed to an unknown ticket conveyance destination, what is called death can be reduced. Moreover, the banknote conveyed by an unknown ticket conveyance destination can also be reduced by controlling similarly also about the banknote banknote with a short banknote space | interval.

<Second embodiment>
By the way, the banknote depositing / dispensing machine 10 described above generates a heavy-running banknote (hereinafter referred to as a fully heavy-running banknote) that is perfectly separated in a state where a plurality of banknotes can be seen almost in a plan view by separation from the storage unit. In this case, even if it is attempted to peel one by one, the succeeding banknotes are pulled by the leading banknote, so that they cannot be separated and separated one by one, and may remain as heavy running banknotes. As a result, the heavy banknotes that could not be peeled become RJ banknotes, so that the banknotes transported to the unknown ticket transport destination cannot be reduced. The components of this embodiment are the same as those of the first embodiment. In the operation of the present embodiment, in the transport from the storage unit 24 at the movement source to the temporary storage unit 14 in the previous embodiment, the discrimination unit 16 exactly overlaps (in a state where it appears almost one sheet in plan view) When it is determined that the banknote is running, the medium management information 58 is assigned data indicating that the banknote has run completely and is written to the memory 42 via the control unit 40. In particular, the present embodiment is different in a routine (subroutine SUB3) for moving banknotes from the temporary storage section 14 to the destination storage section 26 of the first embodiment (subroutine SUB4). In the routine (subroutine SUB4) for moving the banknote from the temporary storage unit 14 to the destination storage unit 26 of the present embodiment, the same reference numerals are assigned to the common parts, and description thereof is omitted.

  After determining that the banknote is abnormal, it is determined whether or not it is a completely heavy banknote (substep SS46). When it is determined that the abnormal banknote is a completely heavy running banknote (YES), the process proceeds to the separation process of the completely heavy running banknote (to sub-step SS48). If the abnormal banknote is not determined to be a completely heavy banknote (NO), the process proceeds to the chain determination process (to sub-step SS40).

  In the separation processing of completely heavy bills (sub-step SS48), the control unit 40 drives and controls the motor 34 to rotate the motor 34 at a low speed. As a result, the banknotes that are completely overrun are transported through the transport path 46 in the direction of the destination with slow control, sent to a region transported by the motor 36 by a predetermined amount, and the motor 34 is stopped. Thereafter, the control unit 40 reverses the motor 34 at a low speed in the temporary stacking direction for a predetermined time, and rotates the motor 36 at a low speed in the separation direction, that is, the movement destination direction, thereby reducing the overlapping degree of the completely heavy running bills. To do.

  Thereafter, when the controller 40 transports a predetermined amount to the transport area of the motor 38 that rotates at a relatively high speed, the controller 40 stops the motor 36 and rotates only the motor 38 to separate only one sheet, thereby transporting the transport path 46. The banknotes that run heavy are fed out.

  Here, the low-speed rotation is the rotation speed in the slow peeling control. The high-speed rotation is, for example, a normal rotation speed. In addition, the conveyance speed in the slow peeling control in the complete heavy run is set to be lower than the conveyance speed in the slow peeling control in the above-described heavy running.

  The separated banknotes are fed out to the conveyance path 46 and then discriminated by the discrimination unit 16. As a result of the discrimination, the control unit 40 conveys normal banknotes to the storage unit 26 and conveys RJ banknotes to the special banknote storage unit 28.

  A more specific separation process for completely heavy banknotes will be described (substep SS48). The cylindrical body provided in the temporary storage unit 14 is wound together with two belts of abnormal banknotes and normal banknotes in this order, and there are two completely heavy-running banknotes as abnormal banknotes. Three pieces are stored in the holding unit 14.

  As described in the previous embodiment, since the banknotes temporarily accumulated in reverse order are fed out, the control unit 40 first feeds out normal banknotes. Since it is a normal banknote, separation is performed at a normal separation speed by a normal motor drive control.

  Since the next set of banknotes is a completely heavy running banknote, when the first set of banknotes leaves the transport range of the motor 36, the control unit 40 stops the motor 34 and the motor 36 also stops rotating. To control.

  Next, the control unit 40 controls the motor 34 so as to rotate at a low speed, and controls so as to feed and stop a completely heavy banknote by a predetermined amount up to the conveyance range by the motor 36. The motor 34 rotates at a low speed, and the motor 36 feeds the completely heavy banknote to a predetermined position in the conveyance range of the motor 36.

  Next, the control unit 40 controls the rotation of the motor 34 so as to return to the direction of the temporary storage unit 14, and controls the motor 36 to rotate in the movement destination direction or the separation direction for a predetermined time. By this control, the completely heavy banknote is peeled off by rotating the motor 34 and the motor 36 in the opposite directions, causing a shift in the overlap. The motor 34 stops after a predetermined time has elapsed.

  Next, the control unit 40 controls the motor 36 to stop before separating the heavy banknotes in the danger zone. The motor 36 stops operating and waits until there are no more banknotes on the feed path 46 within the transport range of the motor 38. When the banknotes on the transport path 46 within the transport range of the motor 38 are exhausted after the discrimination of the discrimination unit 16, the motor 36 is activated again. The control unit 40 controls the motor 36 so as to operate at a medium speed.

  The control unit 40 controls to stop the rotational drive of the motor 36 when the completely heavy banknote is fed into the transport range of the motor 38 by a predetermined amount. Since the motor 38 has already been activated at the start of separation, the two bills that have run completely are separated one by one due to the difference in rotational speed between the motor 38 and the motor 36.

  The control unit 40 waits until the banknotes on the transport path 46 within the transport range of the motor 38 run out after the discrimination of the discrimination unit 16. When there are no more banknotes on the transport path 46 within the transport range of the motor 38, the control unit 40 controls the motor 36 to be activated and driven. The motor 36 rotates at a medium speed.

  Then, when the banknote that has run completely, that is, the third banknote, is fed into the transport range of the motor 38 by a predetermined amount, the control unit 40 controls to stop driving the motor 36. The motor 36 is stopped by this control. Since the motor 38 is driven at a predetermined rotational speed, the third banknote is conveyed through the identification unit 16 until it disappears from the conveyance path 46 in the conveyance range of the motor 38.

  Thereafter, the control unit 40 controls the motor 38 to stop driving. By this control, the motor 38 stops.

  By operating in this way, even if a completely heavy running banknote is generated by separation from the storage unit of the movement source, and a banknote that has run completely as an RJ banknote is accumulated in the temporary holding section 14, the temporary holding section 14 Can be peeled off one by one and separated to prevent RJ banknotes from heavy running. Therefore, the banknote depositing / dispensing machine 10 can reduce the banknotes transported to the unknown ticket transport destination.

  By the way, when separating completely heavy banknotes from the storage unit 24, skew may occur in the banknotes. When banknotes having a skew are generated, the banknote depositing / dispensing machine 10 may be jammed or jammed on the conveyance path 46 in some cases.

  Here, banknotes inclined with respect to the conveyance path 46 are referred to as skew banknotes, and banknotes that generate a paper jam state are referred to as JAM banknotes.

  When JAM occurs, a large amount of RJ banknotes increases by removing all banknotes on the conveyance path 46 including JAM banknotes. Next, the automatic scrutiny when skew bills are generated by separation from the storage unit and become light JAM on the conveyance path 46 will be described.

  The conveyance from the movement source storage unit 24 to the temporary storage unit 14 is as described in the first and second embodiments. That is, the banknotes stored in the storage unit 24 are separated one by one and locked out to the conveyance path 46, identified by the discrimination unit 16, and stored in the memory 42 as the medium management information 58 together with the discrimination result. Transport to the holding unit 14. The conveyance from the temporary storage unit 14 to the destination storage unit 26 or the special banknote storage unit 28 is performed according to the normal / RJ banknote using the medium management information 58. FIG. 10 shows a case where the RJ bill becomes a skew bill by separation from the temporary storage unit 14 and becomes JAM on the conveyance path 46, and the range of JAM.

  The control unit 40 has a function of monitoring the state of occurrence of JAM based on detection information from a plurality of detection sensors arranged in the danger zone. When the control unit 40 determines that the JAM is mild, the control unit 40 attempts to automatically restore all the banknotes on the transport path 46 including the JAM banknotes to the temporary storage unit 14 as shown in FIG. In the conveyance to the temporary storage unit 14, the skew banknote is normally fed while being corrected little by little. Since it is a mild JAM, banknote skew correction is repeated by the process of returning to the temporary storage unit 14.

  Here, the mild JAM means that after transporting to the temporary holding unit 14, it is not the normal separation speed / control in the dangerous section, but the peeling speed is controlled at a transportation speed slower than the normal separation speed, A state that can be reliably separated one by one. Here, the slow conveyance speed in light JAM is a speed slower than the conveyance speed in the slow peeling control in the case of heavy running. The medium management information 58 further includes a JAM bill as an information parameter indicating the transport state.

  After the designated number of banknotes are separated from the storage unit 24 and stored in the temporary storage unit 14, automatic recovery is attempted. The banknote depositing / dispensing machine 10 separates the banknotes accumulated in the temporary storage unit 14 one by one under the control of the control unit 40, and feeds them to the transport path 46. At this time, if the stored medium management information 58 for the bill to be fed indicates normality, the control unit 40 separates at normal separation speed / control along the conveyance path 46 indicated by arrows 66, 68 and 70 in FIG. In addition, when the medium management information 58 indicates JAM, the control unit 40 conveys the banknote from the temporary storage unit 14, because the operation over the dangerous section is not in the normal separation speed / control, but in a JAM occurrence state. Since there is a possibility of heavy running or chaining, it is surely separated one by one while controlling peeling at a slow speed in mild JAM. This separation process is a skew handling process (substep SS42). The fed banknotes are identified again by the discrimination unit 16. When the banknote supplied by the discrimination unit 16 is discriminated from the RJ banknote, the control unit 40 conveys the banknote in the direction of the arrow 72 in FIG. 7 and sends it to the special banknote storage unit 28.

  By operating in this way, skew banknotes are generated by separation from the storage unit 24 of the movement source, and even if JAM occurs on the transport path 46, all banknotes on the transport path 46 are removed if it is mild JAM. Instead of being transported to the special banknote storage unit 28, it is possible to attempt automatic recovery by transporting it again to the temporary storage unit 14 and separating it. As a result, RJ bills that can be generated in large quantities can be greatly reduced. In addition, even if heavy running or chained banknotes generated by mild JAM are accumulated in the temporary holding unit 14 by automatic recovery, they are separated and separated one by one by separation from the temporary holding unit 14 for identification. Can reduce RJ bills.

  However, even the skew handling process cannot sufficiently deal with severe JAM. Therefore, automatic scrutiny in severe JAM is described. Severe JAM is a difficult state where it cannot be reliably separated one by one even after slow peeling control in mild JAM instead of normal separation speed / control in the dangerous section after transporting to the temporary storage unit 14. Say.

  In the case of severe JAM, the control unit 40 tries another automatic recovery (substep SS42). That is, in the skew handling process, the control unit 40 conveys only the bill 74 in the vicinity where JAM has occurred to the special bill storage unit 28 via the conveyance path 46 in the direction of the arrow 72 as shown in FIG. In addition, in order to separate the remaining banknotes excluding the banknote 74 in the vicinity where JAM has occurred from the original storage unit, it is returned to the storage unit 24 via the transport path 46 in the direction of arrow 76 in FIG. Attempt automatic recovery with.

  By operating in this way, skew banknotes are generated by separation from the original storage unit 24, and even if severe JAM occurs on the transport path 46, only the banknotes near the JAM are transported as RJ banknotes. In order to separate the remaining banknotes from the original storage unit 24 again, when returning to the storage unit 24 and attempting automatic recovery, the number of RJ banknotes that can be generated in large quantities is greatly reduced. Can do.

  In the present embodiment, the temporary storage unit 14 has a cylindrical storage unit and is described as being configured to store a banknote around the storage unit. However, the embodiment is not limited to this. For example, a storage of a type in which banknotes are stacked and accumulated in a box-shaped storage like the storages 18, 20, 22, 24, 26, and separated and fed out one by one. It is good also as a temporary storage part. In that case, for example, when heavy running banknotes are generated, in the separation processing of heavy running banknotes, it is ensured one by one while slowly controlling peeling at a lower conveyance speed than normal separation speed / control. If separated, the effect of reducing money to death can be obtained.

Claims (7)

An automatic transaction apparatus for trading banknotes,
A plurality of storage units for storing banknotes;
A special banknote storage unit that stores special banknotes detected by deposit or withdrawal,
While connecting the plurality of storage units and the special banknote storage unit, a transport path for transporting banknotes,
A discrimination unit for discriminating characteristics of bills conveyed in the conveyance path;
A temporary holding unit for temporarily holding the identified banknotes;
A customer service unit that separates banknotes inserted by a customer one by one and feeds them to the transport path, and stacks banknotes delivered to the customer transported through the transport path;
A plurality of detection units for detecting the presence or absence of the banknote in the conveyance path;
A plurality of drive units for driving a transport mechanism for transporting the banknotes on the transport path;
A drive signal generation unit that generates a drive signal to be supplied to the plurality of drive units according to a control signal;
A storage unit that stores medium management information indicating whether the conveyed banknote is a normal banknote or an abnormal banknote, and loads an application program for controlling the operation of the automatic transaction apparatus;
A control unit that controls the plurality of detection units, the discrimination unit, the drive signal generation unit, and the storage unit;
The control unit creates the medium management information based on a result supplied from the discrimination unit when the banknote is moved from the storage unit of the movement source to the temporary storage unit, and the created medium management information Control the writing and reading of the
In the process of moving the banknote from the temporary holding unit to the storage unit in the empty state of the movement destination, the normal banknote transport process and the abnormal banknote transport process are performed based on the read medium management information. Generating the control signal of the drive generation unit so as to drive a plurality of drive units;
In the abnormal banknote transport process, the control signal is generated so as to eliminate the abnormal state of the banknote,
The normal bills are conveyed to the destination storage unit by the plurality of driving units,
The automatic transaction apparatus characterized by discriminating the banknote which passed through the said abnormal banknote conveyance process in the said discrimination part, and conveying the banknote which the result of discrimination showed abnormality to the said special banknote storage part.   The control unit determines whether the bill is in a normal state, a heavy run, a complete heavy run, a chain, or a paper jam based on detection information from the plurality of detection units. The automatic transaction apparatus described. When the control unit determines that the banknote is fully running,
Of the plurality of drive units, the bank that has completely run by the first drive unit is transported more slowly than usual by the control, and the second drive unit of the plurality of drive units includes a second drive unit. Send a predetermined amount to the transport area,
After stopping the first driving unit, reversely rotate the first driving unit to send in the direction of the temporary stacking unit over a predetermined time,
The second drive unit is rotated in the direction of the destination, and a predetermined amount is conveyed to a conveyance region of a third drive unit that rotates at a normal rotation speed among the plurality of drive units,
The second drive unit is stopped and only one sheet is separated by rotating only the third drive unit.
The automatic transaction apparatus according to claim 1 or 2. When the control unit determines that the paper is jammed in the transport path based on detection information supplied from the plurality of detection units, the control unit transports all the banknotes on the transport path to the temporary storage unit again. Attempt automatic recovery with
The automatic transaction apparatus as described in any one of Claims 1-3. In the driving of the plurality of driving units, the control unit has a rotational speed and a rotation direction of each driving unit such that a speed difference is generated in each of the plurality of driving units in order to eliminate heavy running, chaining, and skew. Adjust the
The automatic transaction apparatus as described in any one of Claims 1-4. The control unit determines that the paper is jammed in the conveyance path based on the detection information supplied from the plurality of detection units, and even if the peeling control is performed at a slower speed than usual, reliable one by one. When separation is difficult, only the banknotes near the paper jam are transported to the special banknote storage unit, and the remaining banknotes are returned to the original storage unit again to attempt automatic recovery.
The automatic transaction apparatus in any one of Claims 1-5. The plurality of drive units are adjusted in rotation speed and rotation direction of each drive unit by the control of the control unit,
The automatic transaction apparatus in any one of Claims 1-6.

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