Patent Publication Number: US-2023154268-A1

Title: Banknote processing system and banknote processing management method

Description:
TECHNICAL FIELD 
     The present invention relates to a banknote processing system and to a banknote processing management method. 
     BACKGROUND ART 
     Among money processors, there is one in which money is set in a money batch state with separator cards arranged between adjacent money groups, with the money set in such a money batch state being continuously taken in and counted (for example, refer to Patent Document 1). In this money processor, each money heap is recognized by the separator card. 
     PRIOR ART DOCUMENTS 
     Patent Documents 
     
         
         [Patent Document 1] Published Japanese Translation No. 2000-503956 of the PCT International Publication 
       
    
     SUMMARY OF INVENTION 
     Problem to be Solved by the Invention 
     Diversification of management information is sought after in a banknote processing system. 
     An object of the present invention is to provide a banknote processing system and a banknote processing management method that enable diversification of management information. 
     Means for Solving the Problem 
     A first aspect according to the present invention includes: a banknote processing device, the banknote processing device including a loading unit in which a banknote block is set together with a partition card, the banknote block including stacked banknotes, the partition card being arranged on one of outer sides of the banknote block in a stacking direction, an identification unit that identifies the banknotes and the partition card taken in from the loading unit, a stacking unit for stacking banknotes identified as normal banknotes by the identification unit, and a reject unit for removing reject banknotes identified as other than the normal banknotes by the identification unit and the partition card; an imaging means capable of imaging the banknote processing device and a periphery of a transaction operation clerk who is operating the banknote processing device; and a recording means that records imaging data of the imaging means. An identification number that is visually identifiable is inscribed on at least one surface of the partition card, the imaging means is capable of imaging the identification number, and the recording means records imaging data of the imaging. 
     A second aspect of the present invention further includes: a detection means that detects that the banknote processing device has started a counting operation in a state in which the imaging means has not imaged the identification number; and a notification means that issues an alarm when the detection means detects such. 
     A third aspect of the present invention further includes: a detection means that detects that the banknote processing device has started a counting operation in a state in which the imaging means has not imaged the identification number; and a control means that invalidates the counting operation of the banknote block corresponding to the partition card newly detected by the identification unit when the detection means detects such. 
     A fourth aspect of the present invention is such that the imaging means is further capable of imaging a higher-order terminal device connected as a higher-order component to the banknote processing device and a periphery of an operator of the higher-order terminal device, in addition to the banknote processing device and the periphery of the transaction operation clerk, and the recording means further records imaging data of the imaging. 
     A fifth aspect of the present invention is such that a base color of one surface of the partition card is white and a base color of another surface of the partition card is colored, the imaging means is capable of imaging a scene in which a block including the partition card and the reject banknotes extracted from the reject unit is reset in the loading unit, and the recording means stores imaging data of the imaging. 
     A sixth aspect of the present invention is a banknote processing method for when performing banknote processing using a banknote processing system, the banknote processing system including: a banknote processing device, the banknote processing device including a loading unit in which a banknote block is set together with a partition card, the banknote block including stacked banknotes, the partition card being arranged on one of outer sides of the banknote block in a stacking direction, an identification unit that identifies the banknotes and the partition card taken in from the loading unit, a stacking unit for stacking banknotes identified as normal banknotes by the identification unit, and a reject unit for removing reject banknotes identified as other than the normal banknotes by the identification unit and the partition card; an imaging means; and a recording means that records imaging data of the imaging means. As the partition card, a partition card on at least one surface of which an identification number that is visually identifiable is inscribed is used. Along with this, when the banknote block is set in the loading unit, causing the imaging means to image the identification number of the partition card arranged on one outer side of the banknote block in a stacking direction and causing the recording means to record therein imaging data of the imaging. 
     Effect of the Invention 
     According to the present invention, it is possible to provide a banknote processing system and a banknote processing management method that enable diversification of management information. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG.  1    is an outline block diagram showing a banknote processing system of an embodiment. 
         FIG.  2    is a perspective view showing banknotes and partition cards processed by the banknote processing system of the embodiment. 
         FIG.  3    shows the partition card processed by the banknote processing system of the embodiment, with (a) being a front view and (b) being a back view. 
     
    
    
     EMBODIMENTS FOR CARRYING OUT THE INVENTION 
     Embodiments of the present invention will be described below with reference to the drawings. A banknote processing system  10  of a present embodiment shown in  FIG.  1    is installed in a cash center of a financial institution and used for collating, for example, money totals given on sales slips and the total amount of banknotes collected and brought in. 
     The banknote processing system  10  includes a banknote processing device  11 . The banknote processing device  11  performs a predetermined process on paper sheets S that have been loaded therein. Specifically, the banknote processing device  11  performs an identification process on banknotes S(a) to be processed shown in  FIG.  2    as the paper sheets S. The banknote processing device  11  shown in  FIG.  1    performs a process of identifying the banknotes S(a), counting the banknotes S(a) by denomination, and calculating the total amount of money. 
     Hereinbelow, in the banknote processing device  11 , the side on which the transaction operation clerk performing a transaction operation on the banknote processing device  11  mainly stands is denoted as “front”, the opposite side is denoted as “back”, the right side from the viewpoint of the transaction operation clerk is denoted as “right”, and the left side from the viewpoint of the transaction operation clerk is denoted as “left”. The banknote processing device  11  of  FIG.  1    is viewed from the front. 
     As shown in  FIG.  2   , the banknote processing device  11  collectively processes banknote blocks B(a) together with partition cards S(b) which serve as paper sheets S. The banknote block B(a) is formed by continuously stacking a plurality of banknotes S(a) in the thickness direction, with the long sides and the short sides thereof respectively aligned. The partition card S(b) is arranged on one of the outer sides of the banknote block B(a) in the stacking direction, with the long sides and short sides thereof being respectively aligned with those of the banknotes S(a) constituting the banknote block B(a). The partition card S(b) is used to determine the boundaries of banknote blocks B(a), and constitutes a part of the banknote processing system  10 . Here, each banknote block B(a) is constituted by banknotes S(a) gathered together for each batch processing unit. The banknote block B(a) is often constituted by stacking a plurality of banknotes S(a) as described above, but also may be composed of just one banknote S(a). 
     As shown in  FIG.  1   , the banknote processing device  11  includes a loading unit  12 , a reject unit  13 , and a stacking unit  14 . The loading unit  12  is provided at a lower portion of the right side surface of the banknote processing device  11  and opens to the right side and front of the banknote processing device  11 . The reject unit  13  is provided at an intermediate portion in the vertical direction on the right side surface of the banknote processing device  11  and opens to the right side and front of the banknote processing device  11 . The stacking unit  14  is disposed on the left side of the loading unit  12  and the reject unit  13  and opens to the front surface of the banknote processing device  11 . A plurality of (specifically, 12) stacking units  14  are provided. 
     The paper sheets S are set in the loading unit  12  in a state of being stacked vertically, with the long sides and the short sides being respectively aligned. In the loading unit  12 , for example, the banknote block B(a) obtained by stacking the banknotes S(a) shown in  FIG.  2    is set together with the partition card S(b) arranged on one of the outer sides of the banknote block B(a) in the stacking direction. The loading unit  12  separates and feeds out the set paper sheets S one by one from the bottom one, and takes each fed out paper sheet S into the banknote processing device  11 . 
     As shown in  FIG.  1   , a transport unit  21  and an identification unit  22  are provided inside the banknote processing device  11 . The transport unit  21  transports, within the banknote processing device  11 , the paper sheets S taken in from the loading unit  12 . The identification unit  22  identifies the paper sheets S that is being transported by the transport unit  21 . The identification unit  22  identifies whether each paper sheet S is a partition card S(b) or a banknote S(a) other than the partition card S(b), and in the case of being a banknote S(a), identifies whether the banknote is a normal banknote S(a) to be counted or a reject banknote S(a) other than the normal banknote S(a). When the banknote S(a) is a normal banknote S(a), the identification unit  22  identifies the denomination or the like while counting the banknote S(a). Therefore, the identification unit  22  identifies the banknote S(a) taken in from the loading unit  12  and the partition card S(b) taken in from the loading unit  12 . 
     The identification unit  22  performs the aforementioned identification by acquiring image data of each paper sheet S or the like. When barcode data BD is included in the image data of the paper sheet S, the identification unit  22  identifies this as the partition card S(b). The identification unit  22  converts the barcode data BD, which is image data, into character data according to prescribed rules based on the thickness and arrangement of each line. 
     The transport unit  21 , at a portion downstream of the identification unit  22 , selectively distributes the paper sheets S to any one of the reject unit  13  and the plurality of stacking units  14  based on the identification result of the identification unit  22 . The transport unit  21  includes a transport path  25  that is arranged in a manner appropriately separated so as to connect the respective units and that transports the paper sheets S, and a plurality of sorting units  26  that are provided at each branch position of the transport path  25  and sort the paper sheets S. 
     The reject unit  13  excludes, among the paper sheets S taken into the banknote processing device  11  by the loading unit  12 , reject banknotes S(a) identified as other than normal banknotes S(a) to be counted and the partition cards S(b) so as to be removed to outside the banknote processing device  11 . The reject unit  13  stacks the paper sheets S fed from the transport unit  21  from bottom to top in the feeding order (in other words, the order of being taken in from the loading unit  12 ). In the reject unit  13 , the paper sheets S fed out from the loading unit  12  are oriented such that the surface of each that was facing down in the loading unit  12  is facing up. 
     The plurality of stacking units  14  stack the normal banknotes S(a) identified by the identification unit  22  as normal counting targets among the banknotes S(a) taken into the banknote processing device  11  by the loading unit  12  so as to be removable to the outside of the banknote processing device  11 . Each of the plurality of stacking units  14  stacks the banknotes S(a) fed out from the transport unit  21  from bottom to top in the feeding order (in other words, the order of being taken in from the loading unit  12 ). In each of the plurality of stacking units  14 , the paper sheets S fed out from the loading unit  12  are oriented such that the surface of each that was facing down in the loading unit  12  is facing up. 
     An operation display unit  31  (notifying means) that receives an operation input and displays information and outputs a voice is provided on the front surface of the banknote processing device  11 . A control unit  32  (detection means, control means) that controls each unit and a storage unit  33  that stores master data serving as a reference for identification and data of identification count results are provided inside the banknote processing device  11 . 
     The loading unit  12  is provided on the right side surface of the banknote processing device  11  so as to open to the right side and the front as described above. The loading unit  12  includes a bottom portion  40  that is arranged to be inclined slightly downward to the left with respect to the horizontal, a wall portion  41  extending perpendicularly upward, with respect to the bottom portion  40 , from the left end edge position of the bottom portion  40 , and a wall portion  42  extending perpendicularly upward, with respect to the bottom portion  40 , from the back end edge portion of the bottom portion  40 . The wall portion  41  is arranged to be perpendicular to the wall portion  42 . The bottom portion  40  and the wall portion  41  extend in the front-back direction. The wall portion  42  extends perpendicularly with respect to the front-back direction. The paper sheets S are placed on the bottom portion  40  of the loading unit  12 . 
     The paper sheets S, which have a rectangular shape, are set in the loading unit  12  so that the long sides of each follow the wall portion  41 , and the short sides follow the wall portion  42 . In other words, the paper sheets S are set in the loading unit  12  such that the long sides are perpendicular to the wall portion  42  and the short sides are perpendicular to the wall portion  41 . The loading unit  12  includes a bill press  45  that is provided above the bottom portion  40  and that moves up and down along the wall portion  41 . The bill press  45  presses the paper sheets S placed on the bottom portion  40  toward the bottom portion  40 . 
     The loading unit  12  includes a kick-out roller  51 , a take-in roller  52 , and a separation roller  53 . The kick-out roller  51  kicks out the lowermost paper sheet S among the paper sheets S set on the bottom portion  40  toward the transport unit  21 . The take-in roller  52  takes in the paper sheet S kicked out by the kick-out roller  51  into the inside of the banknote processing device  11  and transfers the paper sheet S to the transport unit  21 . The separation roller  53  separates the sheets S taken in by the take-in roller  52  one by one. 
     A paper sheet group G in which at least one banknote S(a) and a partition card S(b) are overlapped is set in the loading unit  12 . The loading unit  12  takes in the sheet group G into the banknote processing device  11 . The loading unit  12  is provided on the right side surface of the above banknote processing device  11  so as to open rightward. 
     The reject unit  13  is provided on the right side surface of the banknote processing device  11  so as to open to the right side and front as described above. The reject unit  13  includes a bottom portion  60  that is arranged to be inclined slightly downward to the left with respect to the horizontal, a wall portion  61  extending perpendicularly upward from the left end edge position of the bottom portion  60 , and a wall portion  62  extending perpendicularly upward from the back end edge of the bottom portion  60 , being perpendicular to the bottom portion  60 . The wall portion  61  is arranged to be perpendicular to the wall portion  62 . The bottom portion  60  and the wall portion  61  extend in the front-back direction. The wall portion  62  extends perpendicularly with respect to the front-back direction. In the reject unit  13 , the paper sheets S that are to be sequentially fed from the transport unit  21  are stacked on the bottom portion  60  from bottom to top. 
     As shown in  FIG.  2   , the partition card S(b) has a rectangular shape. The length of the partition card S(b) in the long-side direction is substantially equal to the length of the longest banknote S(a) in the long-side direction. Therefore, the partition card S(b) has a length substantially equal to or slightly longer than the banknotes S(a). 
     The partition card S(b) is set in the loading unit  12  such that the long sides thereof follow the wall portion  41  and the short sides thereof follow the wall portion  42 . The loading unit  12  conveys the partition card S(b) and the banknotes S(a), both of which are the paper sheets S, toward the wall portion  41  along the short sides thereof and takes the paper sheets S into the banknote processing device  11 . The transport unit  21  also transports the partition card S(b) and the banknote S(a) such that each moves along the short-side direction thereof. 
     As shown in  FIG.  3   , the base color of the front surface  65  of the partition card S(b) is white. On this front surface  65  printed in black ink are barcode data BD and a serial number SN that is an identification number. The base color of the back surface  66  of the partition card S(b) has color. In other words, the base color of the back surface  66  is colored. The color of the back surface  66  is, for example, red or blue. Therefore, the front surface  65  and back surface  66  of the partition card S(b) can be distinguished by visual observation of the base color. Of course, the base color of the front surface  65  may be colored, and the base color of the rear surface  66  may be white. That is, the partition card S(b) only needs to have the base color be colored on one of the front surface  65  and the back surface  66 . Note that neither the barcode data BD nor the serial number SN is printed on the back surface  66 . 
     The barcode data BD is image data that cannot be discerned by direct viewing by a human observer. In other words, the barcode data BD can only be discerned by a human using a machine. The barcode data BD is displayed at the center in the long-side direction and at the center in the short-side direction of the partition card S(b). The barcode data BD is displayed so that a plurality of bars extending in the short-side direction of the partition card S(b) are arranged in the long-side direction of the partition card S(b). The entire barcode data BD is displayed so as to extend along the long-side direction of the partition card S(b). 
     The serial number SN is image data that can be discerned by direct viewing by a human observer. In other words, the serial number SN can be discerned by a human without using a machine. The serial number SN is displayed in the form of characters. The serial number SN is specifically composed of alphanumeric characters. Therefore, the serial number SN that can be visually discerned is given on the front surface  65 , which is one surface of the partition card S(b). In other words, the serial number SN included in the barcode data BD is given on the front surface  65  of the partition card S(b) in alphanumeric characters so as to be discernable by direct viewing by a human. The serial number SN is, for example, a four-digit alphanumeric in the range of 0001 to FFFF. In the example of  FIG.  3   , the serial number SN is “1234” composed of four alphanumeric characters. 
     The serial number SN is printed at two locations on the front surface  65  of the partition card S(b). One serial number SN is displayed near one short side of the partition card S(b). With this one short side facing upward, the one serial number SN is displayed so as to be read sequentially from left to right along the short side. The other serial number is displayed near the other short side of the partition card S(b). With this other short side facing upward, the other serial number is displayed so as to be read from left to right along this short side. 
     The barcode data BD may be printed on both surfaces  65  and  66  of the partition card S(b). Also, the serial number SN may be printed on both surfaces of the partition card S(b). Therefore, it is sufficient that the barcode data BD, which cannot be discerned by viewing, be given on at least one side of the partition card S(b). Further, it is sufficient that the serial number SN, which can be discerned by viewing, be given on at least one surface of the partition card S(b). In the above description, the serial number SN included in the barcode data BD was described, but the barcode data BD and the serial number SN may be exactly the same. The barcode data BD only needs to be discernable by a machine, and may be, for example, two-dimensional barcode data as image data. 
     As shown in  FIG.  1   , the banknote processing system  10  includes a video camera  71  (imaging means) and a video recorder  72  (recording means). The video camera  71  can capture color images as a moving image. The video camera  71  can image the banknote processing device  11  and the periphery of a transaction operation clerk performing a transaction operation on the banknote processing device  11  on the front side of the banknote processing device  11 . The video recorder  72  records the imaging data captured by the video camera  71 . The video camera  71  can image the serial number of the partition card S(b). The video recorder  72  records the imaging data in which the serial number is imaged. 
     In addition, the banknote processing system  10  includes a higher-order terminal device  81 , the above-described partition card S(b), and a barcode reader  82 . The higher-order terminal device  81  is connected as a higher-order component to the banknote processing device  11  and used for inputting the sales slip data. The partition card S(b) is used for determining the boundary between banknote blocks B(a) of sales proceeds. The barcode reader  82  is connected to the higher-order terminal device  81  and reads barcode data BD given on the front surface  65  of the partition card S(b). The banknote processing device  11  and the higher-order terminal device  81  are connected by a communication cable so that necessary information data can be communicated between the banknote processing device  11  and the higher-order terminal device  81 . 
     Further, the banknote processing system  10  includes a video camera  85  (imaging means), a video recorder  86 , and a housing box  91 . The video camera  85  can capture color images as a moving image. The video camera  85  is capable of imaging the higher-order terminal device  81  and the periphery of the manager performing an operation thereon on the front side thereof. The video camera  85  is capable of imaging the housing box  91  and the periphery of the manager performing an operation thereon on the front side thereof. The video recorder  86  records imaging data captured by the video camera  85 . The housing box  91  can store the paper sheet group G. 
     Next, transaction processing performed using the banknote processing system  10  will be described step by step. 
     [1] Registration Process 
     First, as shown in  FIG.  2   , the manager who is the operator of the higher-order terminal device  81  arranges the partition card S(b) on one of the outer sides in the stacking direction of each of a plurality of banknote blocks B(a) of the sales proceeds that have been collected, and houses each in the predetermined housing box  91  shown in  FIG.  1   . The housing box  91  houses the plurality of banknote blocks B(a) arranged in alignment with the stacking direction of the banknotes S(a). 
     When housing a plurality of banknote blocks B(a) in the housing box  91 , the manager inserts the partition card S(b) on the side of the banknote block B(a) at one end of the plurality of banknote blocks B(a) opposite the other banknote blocks B(a), and into each boundary between the plurality of banknote blocks B(a). At this time, the partition card S(b) arranged on the side of the banknote block B(a) at one end of the plurality of banknote blocks B(a) opposite the other banknote blocks B(a) is oriented to face the outside, which is the opposite side of the banknote block B(a). The front and back of the remaining partition cards S(b) are also aligned with this partition card S(b). Then, the banknote block B(a) arranged adjacent to the back surface  66  side of the partition card S(b) becomes the banknote block B(a) corresponding to that partition card S(b). In the housing box  91 , the partition card S(b) is individually provided for each of the banknote blocks B(a). 
     In other words, the manager arranges the partition card S(b) so that the front surface  65  thereof faces the opposite side with respect to the corresponding banknote block B(a) while the back surface  66  faces the corresponding banknote block B(a). That is, when inserted into the housing box  91  by the manager, the orientations of the partition cards S(b) are aligned so that the front surface  65  of each faces the same fixed direction with respect to the corresponding banknote block B(a). 
     As described above, a plurality of paper sheet groups G each including the partition card S(b) and the banknote block B(a) are arranged in the housing box  91 . Note that although not shown, a plurality of partition plates that can move in the stacking direction of the banknotes S(a), for example, are provided in the housing box  91 . When housing paper sheet groups G in the housing box  91 , the manager arranges and interposes the partition plate at a position between one paper sheet group G and one paper sheet group G that are adjacent, at a position corresponding to the thicknesses thereof. The manager performs this at every position between one paper sheet group G and one paper sheet group G that are adjacent. Thereby, the plurality of paper sheet groups G housed in the housing box  91  can each be separated and sorted from the other paper sheet groups G by the partition plate. 
     Subsequently, the manager operates the higher-order terminal device  81  to input information data stated in the sales slip data, which is attached to each sales amount, to the higher-order terminal device  81  via the keyboard. Along with this, the manager reads with the barcode reader  82  the barcode data BD given on the partition card S(b) corresponding to the banknote block B(a) of each sales amount. Then, an associating operation of associating the information data corresponding to each sales amount sorted in the housing box  91  with the barcode data BD inscribed on the partition card S(b) in a one-to-one manner and storing the information in the higher-order terminal device  81  is performed. 
     That is, the manager operates the higher-order terminal device  81  to input to the higher-order terminal device  81 , via the keyboard, the information data stated in the slip data attached to a first banknote block B(a) which is at one end of the plurality of banknote blocks B(a) and has a first partition card S(b) arranged on the opposite side of the other banknote blocks B(a). Along with this, the manager causes the barcode reader  82  to read the barcode data BD given on the exposed front surface  65  of the first partition card S(b). After that, the manager performs a finalization operation on the higher-order terminal device  81 . Then, the higher-order terminal device  81  stores the information data corresponding to the first banknote block B(a) and the barcode data BD given on the first partition card S(b) in one-to-one correspondence. 
     Next, the first partition card S(b) and the first banknote block B(a) are separated from a second partition card S(b) adjacent to the first banknote block B(a) at the opposite side of the first partition card S(b), to expose the front surface  65  of the second partition card S(b). 
     Then, the manager operates the higher-order terminal device  81  to input to the higher-order terminal device  81 , via the keyboard, the information data stated in the slip data attached to a second banknote block B(a) which is adjacent to the second partition card S(b) at the opposite side of the first banknote block B(a). Along with this, the manager causes the barcode reader  82  to read the barcode data BD given on the exposed front surface  65  of the second partition card S(b). After that, the manager performs a finalization operation on the higher-order terminal device  81 . Then, the higher-order terminal device  81  stores the information data corresponding to the second banknote block B(a) and the barcode data BD given on the second partition card S(b) in one-to-one correspondence. 
     The above association operation is performed for all combinations of the partition card S(b) and the banknote block B(a) in the housing box  91 . 
     At the time of this associating operation, the video camera  85  images the higher-order terminal device  81  and the periphery of the manager, and the video recorder  86  stores the imaging data. Note that with respect to the housing box  91  which is arranged at a predetermined arrangement position during the associating operation, the video camera  85  is installed at a position to be capable of also imaging the housing box  91 . When the manager reads the barcode data BD on the front surface  65  of the partition card S(b) in the housing box  91  with the barcode reader  82  as described above, the video camera  85  is arranged at a position of imaging the serial number SN of the front surface  65  of the partition card S(b). 
     Here, the information data stated in the slip data is, specifically, customer information of the seller and the sales proceeds amount, the store code, the account number for transfer, and the like. 
     Next, the manager hands over to the transaction operation clerk of the banknote processing device  11  the storage box  91 , in which the paper sheet group G including the banknote block B(a) and the partition card S(b) of each sales amount are sorted and housed as described above. Then, the work is taken over by the transaction operation clerk, and thereafter, the transaction operation clerk performs the transaction operation. 
     [2] Process of Counting Sales Proceeds 
     Work rules are defined for the transaction operation clerk who operates the banknote processing device  11  to first take out from the housing box  91  the paper sheet groups G, each of which is a set of the partition card S(b) and the banknote block B(a), one by one, hold the partition card S(b) up to the video camera  71  at each removal so that the number of the serial number SN inscribed thereon appears in the video camera  71 , and then, after storing the imaging data in the video recorder  72 , perform loading into the loading unit  12  of the banknote processing device  11 . 
     Work rules are also defined for the transaction operation clerk to load the paper sheet groups G, each of which is a set of the partition card S(b) and the banknote block B(a), into the loading unit  12  of the banknote processing device  11 , with the partition card S(b) of each on the lower side and moreover the front surface  65  thereof facing down (in other words, the back surface  66  faces up). 
     Accordingly, the transaction operation clerk first takes out the first paper sheet group G, which is a set of the first partition card S(b) and the first banknote block B(a), housed in the housing box  91  received from the manager as described above. Then, the transaction operation clerk, for example in a state of being gathered together, holds the first partition card S(b) up to the video camera  71  so that the number of the inscribed serial number SN is imaged in the video camera  71 , thereby storing the imaging data including the serial number SN in the video recorder  72 . 
     Subsequently, the transaction operation clerk loads the first paper sheet group G in the loading unit  12  of the banknote processing device  11 , and among the first partition card S(b) and the first paper sheet block B(a), the first partition card S(b) is on the lower side with the front surface  65  thereof facing down. Then, the front surface  65  of the first partition card S(b) comes into contact with the bottom portion  40  of the loading unit  12 . The video camera  71  images the transaction operation clerk performing the loading operation of the first paper sheet group G into the loading unit  12 . The video recorder  72  records this imaging data. 
     In this state, the transaction operation clerk presses the count button of the operation display unit  31  of the banknote processing device  11 . Then, the loading unit  12  of the banknote processing device  11  takes into the interior of the banknote processing device  11  the first partition card S(b) and the first banknote block B(a) in order from the bottom, that is, in the order of first the first partition card S(b) and next the banknotes S(a) of the first banknote block B(a) one by one, to be transported by the transport unit  21  and identified by the identification unit  22 . Then, the normal banknotes S(a) identified by the identification unit  22  as normal banknotes S(a) to be counted are transported to one of the stacking units  14  set for the first banknote block B(a) and stacked. 
     On the other hand, the first partition card S(b) and the reject banknotes S(a) identified by the identification unit  22  are removed to the reject unit  13  by the transport unit  21 . Therefore, the first partition card S(b) in the first sheet group G is first removed to the reject unit  13 . At that time, the first partition card S(b) comes into contact with the bottom portion  60  of the reject unit  13 , with the back surface  66  thereof facing downward. Thereafter, reject banknotes S(a) are stacked on the first partition card S(b). 
     Here, if there are no reject banknotes S(a), with only the first partition card S(b) that was loaded into the loading unit  12  being transported to the reject unit  13  and all the banknotes S(a) of the first banknote block B(a) being transported to the stacking unit  14 , and thereby there are no longer any paper sheets S in the loading unit  12 , the counting process is completed for the first paper sheet group G, which is the set of the first partition card S(b) and the first banknote block B(a). 
     Next, the transaction operation clerk takes out the second paper sheet group G, which is a set of the second partition card S(b) and the second banknote block B(a), housed in the housing box  91 , and in a state of being gathered together, holds the second partition card S(b) up to the video camera  71  so that the number of the inscribed serial number SN is imaged in the video camera  71 , thereby storing the imaging data thereof in the video recorder  72 . 
     Subsequently, the transaction operation clerk loads the second paper sheet group G in the loading unit  12  of the banknote processing device  11  while, among the second partition card S(b) and the second paper sheet block B(a), the second partition card S(b) is on the lower side with the front surface  65  thereof facing down. Then, the front surface  65  of the second partition card S(b) comes into contact with the bottom portion  40  of the loading unit  12 . The video camera  71  images the transaction operation clerk performing the loading operation of the second paper sheet group G into the loading unit  12 . The video recorder  72  records the imaging data. 
     In this state, the transaction operation clerk presses the count button of the operation display unit  31  of the banknote processing device  11 . Then, in the banknote processing device  11 , the loading unit  12  takes into the interior of the banknote processing device  11  the second partition card S(b) and the second banknote block B(a) in order from the bottom, that is, first the second partition card S(b) and next the banknotes S(a) of the second banknote block B(a) one by one in sequence, to be transported by the transport unit  21  and identified by the identification unit  22 . Then, the normal banknotes S(a) identified by the identification unit  22  as normal banknotes S(a) to be counted are transported to one of the stacking units  14  set for the second banknote block B(a) and stacked, the stacking unit  14  differing from the one set for the first banknote block B(a). 
     On the other hand, the second partition card S(b) and the reject banknotes S(a) identified by the identification unit  22  are removed to the reject unit  13  by the transport unit  21  and stacked. At that time, the second partition card S(b) in the second paper sheet group G is first removed to the reject unit  13 , and at that time, the back surface  66  thereof faces downward, thereby coming into contact with the bottom portion of the reject unit  13 . Thereafter, reject banknotes S(a) are stacked on the second partition card S(b). 
     Here, if there are no reject banknotes S(a), with only the second partition card S(b) that was loaded into the loading unit  12  being transported to the reject unit  13 , and all the banknotes S(a) of the second banknote block B(a) being transported to the stacking unit  14 , and thereby there are no longer any paper sheets S in the loading unit  12 , the counting process is completed for the second paper sheet group G. 
     Thereafter, similarly, the transaction operation clerk takes out the paper sheet groups G, each of which is a set of the partition card S(b) and the banknote block B(a), one by one from the storage box  91 . For each set of the paper sheet group G, the transaction operation clerk holds the partition card S(b) up to the video camera  71  so that the number of the inscribed serial number SN is imaged, and the imaging data thereof is stored in the video recorder  72 . 
     Subsequently, after being loaded in the loading unit  12  with the partition card S(b) on the lower side and the front surface  65  thereof facing down, the count button is pressed. Then, the banknote processing device  11  takes in the paper sheet groups G from the loading unit  12  and for each set performs a counting process that stacks the normal banknotes S(a) identified as normal banknotes S(a) to be counted by the identification unit  22  in the corresponding one of the stacking units  14 , and removes the partition card S(b) and the reject banknotes S(a) to the reject unit  13 . 
     In this way, the above operation is repeatedly performed on all of the paper sheet groups G, each of which is a set of the partition card S(b) and the banknote block B(a), in the housing box  91 . Then, when all the counting operations are completed, the transaction operation clerk presses the completion button of the operation display unit  31  of the banknote processing device  11  to perform the completion operation. 
     Then, the higher-order terminal device  81  recognizes that the completion operation has been performed in the banknote processing device  11 , and the higher-order terminal device  81  imports from the banknote processing device  11 , by communication via the communication cable, the individual count data obtained by performance of the transaction operation. Then, when the manager performs a completion operation on the higher-order terminal device  81  side, the higher-order terminal device  81  individually performs a collation of the counted sum, obtained by the operation performed by the transaction operation clerk, which is the result of counting the normal banknotes S(a) corresponding to the serial number SN inscribed on the partition card S(b), and the sales proceeds corresponding to the same serial number SN as the serial number SN inscribed on the partition card S(b), registered at the higher-order terminal device  81  during the registration process performed in advance by the manager. 
     In this way, the counting process is completed when the counting result performed by the banknote processing device  11  is confirmed with the result of collation by the higher-order terminal device  81 , for all the paper sheet groups G in the housing box  91  by the transaction operation clerk. 
     During the counting operation of each set of the paper sheet groups G, the reject banknotes S(a) identified by the identification unit  22  as other than normal banknotes S(a) are removed to the rejection unit  13  to be stacked together with the partition card S(b). Since the count of the reject banknotes S(a) has not been finalized, the transaction operation clerk needs to extract the rejected banknotes S from the reject unit  13  and reload the rejected banknotes S into the loading unit  12  to perform a recounting operation. 
     At this time, the partition card S(b) identified at the front of the banknote block B(a) and removed to the reject unit  13  is also extracted. Then, in the same manner as in the above-described operation, the transaction operation clerk, among the set of the partition card S(b) and the reject banknotes S(a), holds the partition card S(b) up to the video camera  71  so that the number of the serial number SN inscribed thereon appears in the video camera  71 , with the imaging data being stored in the video recorder  72 . 
     The transaction operation clerk then loads the partition card S(b) and the reject banknotes S(a) into the loading unit  12  of the banknote processing device  11 , with the partition card S(b) on the lower side and the front surface  65  of the partition card S(b) facing down, and presses the count button (not shown). The video camera  71  also images the transaction operation clerk performing the loading operation of the partition card S(b) and the reject banknotes S(a). The imaging data is stored in the video recorder  72 . In this way, when the reject banknotes S(a) that are transported to the reject unit  13  are completely eliminated so that all the banknotes S(a) are transported to the stacking units  14 , the counting process by the banknote processing device  11  is completed. 
     Here, the video camera  71  images a scene in which a block including the partition card S(b) and the reject banknotes S(a) extracted from the reject unit  13  is reset in the loading unit  12 . The video recorder  72  stores the imaging data of this imaging. 
     For example, the transaction operation clerk takes out the set of the first partition card S(b) and the reject banknotes S(a) of the first banknote block B(a) from those taken out from the reject unit  13 , holds the first partition card S(b) up to the video camera  71  so that the number of the serial number SN inscribed thereon appears in the video camera  71 , and stores the imaging data in the video recorder  72 . 
     Subsequently, the transaction operation clerk loads the first partition card S(b) and the reject banknotes S(a), which are a set, into the loading unit  12  of the banknote processing device  11 , with the first partition card S(b) on the lower side and moreover the front surface  65  thereof facing down. Then, the front surface  65  of the first partition card S(b) comes into contact with the bottom portion  40  of the loading unit  12 . The video camera  71  also images the transaction operation clerk performing the loading operation of the first partition card S(b) and the reject banknotes S(a), with the imaging data stored in the video recorder  72 . 
     In this state, the transaction operation clerk presses the count button of the operation display unit  31  of the banknote processing device  11 . Then, the loading unit  12  of the banknote processing device  11  takes into the interior of the banknote processing device  11  the first partition card S(b) and the reject banknotes S(a) in order from the bottom, that is, in the order of first the first partition card S(b) and next the reject banknotes S(a) one by one, to be transported by the transport unit  21  and identified by the identification unit  22 . 
     Then, the normal banknotes S(a) identified by the identification unit  22  as normal banknotes to be counted are transported to the corresponding one of the stacking units  14  to be stacked. In this way, when the reject banknotes S(a) transported to the reject unit  13  are completely eliminated and all the banknotes S(a) are transported to the stacking units  14 , the counting process by the banknote processing device  11  for the first partition card S(b) and the first banknote block B(a) is completed. 
     Next, the transaction operation clerk takes out the set of the second partition card S(b) and the reject banknote S(a) of the second banknote block B(a) from those taken out from the reject unit  13 , holds the second partition card S(b) up to the video camera  71  so that the number of the serial number SN inscribed thereon appears in the video camera  71 , and stores the imaging data in the video recorder  72 . 
     Subsequently, the transaction operation clerk loads the second partition card S(b) and the reject banknotes S(a), which are a set, into the loading unit  12  of the banknote processing device  11 , with the second partition card S(b) on the lower side and moreover the front surface  65  thereof facing down. Then, the front surface  65  of the second partition card S(b) comes into contact with the bottom portion  40  of the loading unit  12 . The video camera  71  also images the transaction operation clerk performing the loading operation of the second partition card S(b) and the reject banknotes S(a), with the imaging data being stored in the video recorder  72 . 
     In this state, the transaction operation clerk presses the count button of the operation display unit  31  of the banknote processing device  11 . Then, the loading unit  12  of the banknote processing device  11  takes into the interior of the banknote processing device  11  the second partition card S(b) and the reject banknotes S(a) in order from the bottom, that is, in the order of first the second partition card S(b) and next the reject banknotes S(a) one by one, to be transported by the transport unit  21  and identified by the identification unit  22 . 
     Then, the normal banknotes S(a) identified by the identification unit  22  as normal banknotes to be counted are transported to the corresponding one of the stacking units  14  and stacked. In this way, when the reject banknotes S(a) transported to the reject unit  13  are completely eliminated and all the banknotes S(a) are transported to the stacking units  14 , the counting process by the banknote processing device  11  for the second partition card S(b) and the second banknote block B(a) is completed. 
     Above has been described with an example the case where each set (each group) of the paper sheet groups G, each being a set of the partition card S(b) and the banknote block B(a), is loaded into the loading unit  12  to perform the counting process. It is also possible to collectively input a plurality of sets of paper sheet groups G into the loading unit  12  to perform the counting process. At that time, those between a preceding partition card S(b) and the next partition card S(b) is identified as the banknote block B(a) of the set with the preceding partition card S(b). In this case, the normal banknotes S(a) are stacked in different stacking units  14  for each banknote block B(a), while the reject banknotes S(a) of all the banknote blocks B(a) are collectively stacked in the reject unit  13  together with the corresponding partition cards S(b). Also in this case, the video camera  71  images the transaction operation clerk loading the plurality of paper sheet groups G into the loading unit  12 , with the imaging data being stored in the video recorder  72 . 
     When a plurality of paper sheet groups G are counted continuously at one time in this way, a plurality of sets of partition cards S(b) and reject banknotes S(a) of the banknote blocks B(a) stacked in the reject unit  13  are collectively loaded in the loading unit  12  and the counting process is performed again. The reject banknotes S(a) between a preceding partition card S(b) and the next partition card S(b) are identified as those of the banknote block B(a) of the set with the preceding partition card S(b). 
     During this operation, there is a risk of the transaction operation clerk mistakenly extracting the partition card S(b) and the reject banknotes S(a) from the reject unit  13 . Moreover, even if the transaction operation clerk has correctly extracted the partition card S(b) and the reject banknotes S(a) from the reject unit  13 , there is a risk of the transaction operation clerk incorrectly setting the orientation during reloading into the loading unit  12 . In particular, when a reject banknote S(a) occurs in a plurality of banknote blocks B(a) during collective counting of a plurality of sets of the partition card S(b) and the banknote block B(a) as described above, such a likelihood increases. 
     However, among the partition cards S(b) and the reject banknotes S(a) that are sequentially stacked in the reject unit  13 , those at the lower layer of the reject unit  13  were taken into the banknote processing device  11  from the loading unit  12  first, while those at the upper layer of the reject unit  13  were taken into the banknote processing device  11  from the loading unit  12  afterward, so they can be recognized at a glance. 
     Further, as described above, since only the back surface  66  of the partition card S(b) is colored red, blue, or the like, even if, for example, a plurality of reject banknotes S(a) that occurred during the collective counting of a plurality of banknotes blocks B(a) are collectively extracted at once from the reject unit  13 , this back surface  66  of the colored partition card S(b) serves as a mark, and so provided there is no error in recognizing which banknotes in either direction with respect to the back surface  66 , which is the colored surface, belong to the banknote block B(a) corresponding to the partition card S(b), the risk of error is eliminated. 
     Also, for example, in the case of counting a banknote block B(a) of a total of for example 100,000 yen, which is set with the partition card S(b) having the serial number SN of for example “1234”, and a single reject banknote S of 10,000 yen occurs in the first counting process, then the first counting of the partition card S(b) having the serial number SN “1234” is 90,000 yen, and if the second counting in which the rejected 10,000 yen banknote is recognized as a normal counting target by recounting with the partition card S(b) having the serial number SN of “1234” is 10,000 yen, the total becomes 100,000 yen, and so the calculation is correct. This calculation may be performed on the banknote processing device  11  side, or may be performed on the higher-order terminal device  81  side. 
     Even if the reject banknotes S(a) stacked in the reject unit  13  are re-counted as described above so that all the banknotes S(a) in the banknote block B(a) are normally counted, as a result of the collation by the higher-order terminal device  81 , on rare occasions the counting result will not match the sales proceeds corresponding to the serial number SN inscribed on the partition card S(b). In such a case, since the banknote block B(a) for which the collation did not match can be specified, the manager calls up the registration screen used when performing the registration processing in [ 1 ] above, confirms and accordingly records the customer information of the seller (contact details and the like), the sales proceeds amount, the store code, and the account number for transfer, which are information data on the slip associated with that serial number SN, and informs the seller that the amount stated on the slip and the amount of counted money did not match. Then, after obtaining the authorization of the seller, a correction process is performed in which the amount of the slip that does not match is amended to the amount of money actually counted to match the collation. 
     [3] Video Camera Imaging Process and Imaging Data Recording Process 
     A series of operations performed by the transaction operation clerk have been described above. The imaging process by the video camera  71  and the imaging data recording process by the video recorder  72  are always started from the point at which the transaction operation clerk starts an operation on the banknote processing device  11  and continuously executed without fail until the banknote block B(a) counting operation ends, the result of collation with the higher-order terminal device  81  is confirmed and the removal operation is completed. 
     The video data thus recorded is stored on a hard disk of a PC terminal (not shown) and preserved. In other words, even if the transaction operation clerk makes a suspicious movement that is deemed to be fraudulent, or makes an operation error on the banknote processing device  11 , the situation at that time is all recorded as video data. 
     [4] Mechanism of Video Camera Imaging Process and Work Rule Compliance 
     Above, a description as given including the work rules related to the operation of the transaction operation clerk. Operation guards will be described for the case in which such work rules are not observed. In the banknote processing system  10 , a mechanism for performing image analysis of imaging data captured by the video camera  71  is provided in the control unit  32 . The mechanism particularly analyzes movements of human hands and the surface  65  of the partition card S(b). 
     That is, the control unit  32  causes an audio output unit (not shown) of the operation display unit  31  to issue an alarm upon detecting, from the imaging data in the video camera  71 , that the transaction operation clerk has loaded the paper sheet group G, which is a set of the partition card S(b) and the paper sheet block B(a), into the loading unit  12  of the banknote processing device  11  without holding the paper sheet group G up to the video camera  71  so that the number of the serial number SN inscribed on the partition card S(b) appears in the video camera  71 . Note that not only a warning sound but also a warning lamp may be turned on as an alarm. The alarm allows the transaction operation clerk to notice that an error in operation has been committed. 
     Moreover, if the transaction operation clerk loads the paper sheet group G, which is a set of the partition card S(b) and the banknote block B(a), into the loading unit  12  of the banknote processing device  11  without holding the paper sheet group G up to the video camera  71  so that the number of the serial number SN appears in the video camera  71  and performs the deposit counting operation without noticing the above-described alarm, the control unit  32  is equipped with a mechanism to detect the incorrect deposit counting operation and invalidate the transaction operation. 
     As an example of the invalidation control performed by the control unit  32 , when the identification unit  22  newly detects the partition card S(b), the control unit  32  stops the subsequent take-in operation of the paper sheet S by the loading unit  12 , rejects the partition card S(b) to the reject unit  13 , and also rejects all the banknotes S(a) on the transport unit  21  to the reject unit  13  so that the counting operation itself is invalidated. That is, upon detecting that the banknote processing device  11  has started the counting operation in a state where the video camera  71  has not imaged the serial number SN, the control unit  32  invalidates the counting operation of the paper sheet block B(a) corresponding to the partition card S(b) newly detected by the identification unit  22 . 
     [5] Confirmation of Video Data Playback 
     Some sellers who are notified that the sales slip amount and the amount of money counted by the banknote processing system  10  do not match cannot accept the contents of the communication from the cash center. At times, they may visit the cash center and request a detailed explanation of the situation. In such a case, the person in charge of the cash center presents the relevant portion recorded on the higher-order terminal device  81  with respect to the sales proceeds of the seller, and explains that the amount stated in the slip does not match the counted amount of money. 
     In addition, for a seller who is still unable to accept that arrangement, along with presenting the serial number SN which is information obtained when counting the sales proceeds of the seller, the video data of the corresponding portion is played back from the video recorder  72 . By letting the seller view the video data during the period from when the partition card S(b) of that serial number SN is held over the video camera  71  to when the counting is completed, it is possible to get the seller to confirm that the transaction operation clerk did not commit any wrongdoing. 
     Although the above embodiment is provided with both the video camera  71  that images the banknote processing device  11  and the periphery of the operation clerk who performs the transaction operation on the banknote processing device  11 , and the video camera  85  that images the higher-order terminal device  81  and the periphery of the manager, only the video camera  71  among the video cameras  71  and  85  may be provided. 
     The above-mentioned banknote processing system  10  includes the video camera  71  capable of imaging the banknote processing device  11  and the periphery of the transaction operation clerk operating the banknote processing device  11 , and the video recorder  72  for recording imaging data of the video camera  71 . Further, a serial number SN that can be visually identified is inscribed on the front surface  65  of the partition card S(b). Then, when the video camera  71  images the serial number SN, the video recorder  72  stores the imaging data. Thereby, when recording imaging data of a scene in which the transaction operation clerk is counting banknote blocks B(a) with the banknote processing device  11 , since the serial number SN inscribed on the partition card S(b), which can specify which banknote block B(a) is being counted, is also recorded, diversification of the management information becomes possible. Therefore, for example, when there is a complaint from a seller about the sales amount not matching the slip amount, the imaging data that is the target record can be specified, whereby viewing thereof by the seller is possible. 
     When the banknote processing system  10  detects that the banknote processing device  11  has started the counting operation in a state where the video camera  71  has not imaged the serial number SN, the control unit  32  issues an alarm from the operation display unit  31 . Thereby, an effect is brought about in which the operator is made to thoroughly implement the work rule of always holding up to the video camera  71  the serial number SN of the partition card S(b) prior to counting the banknote block B(a) with the banknote processing device  11 . 
     Moreover, when the banknote processing system  10  detects that the banknote processing device  11  has started the counting operation in a state where the video camera  71  has not imaged the serial number SN, the control unit  32  invalidates the counting operation of the banknote block B(a) corresponding to the partition card S(b) newly detected by the identification unit  22 . Thereby, before the banknote block B(a) is counted by the banknote processing device  11 , when the work rule of always holding up to the video camera  71  the serial number SN of the partition card S(b) is not followed, the control unit  32  invalidates the counting operation. For this reason, it becomes possible to stop a transaction operation that violates the work rules and start over. In addition, as an example of the invalidation control performed by the control unit  32 , when the identification unit  22  newly detects the partition card S(b), the control unit  32  may stop the subsequent take-in operation of the paper sheet S by the loading unit  12 , reject the partition card S(b) to the reject unit  13 , and also reject all the banknotes S(a) on the transport unit  21  to the reject unit  13  so that the counting operation cannot be normally completed. 
     The banknote processing system  10  includes, in addition to the video camera  71  that images the banknote processing device  11  and the periphery of the transaction operation clerk, the video camera  85  that images the higher-order terminal device  81  connected as a higher-order component to the banknote processing device  11  and the periphery of the manager who is the operator of the higher-order terminal device  81 . The video recorder  86  records the imaging data of the video camera  85 . Thereby, not only the transaction operation clerk who operates the banknote processing device  11  but also the operation state of the manager who is the operator of the higher-order terminal device  81  can be imaged and recorded. 
     Further, in the banknote processing system  10 , the partition card S(b) has a white base color on one surface  65  and a colored base color on the other back surface  66 . The video camera  71  images the scene in which a block including the partition card S(b) and the reject banknotes S(a) extracted from the reject unit  13  is reset in the loading unit  12 , while the video recorder  72  records this imaging data of the imaging. As a result, imaging and recording are performed as to whether or not an operation error has occurred when a reject banknote S(a) has occurred. 
     Here, in the reject unit  13 , the partition card S(b) fed from the loading unit  12  is inverted so that the front surface  65  that was facing down in the loading unit  12  faces up, with the reject banknotes S(a) of the same paper sheet group G being placed on the front surface  65  thereof. For this reason, the relationship between the front surface  65  and the back surface  66  of the partition card S(b) and the reject banknotes S(a) of the same paper sheet group G is opposite to that at the time of loading into the loading unit  12 . Therefore, mistakes are likely to occur when resetting in the loading unit  12 . For this reason, the video camera  71  is effective in imaging the scene in which the block including the partition card S(b) and the reject banknotes S(a) extracted from the reject unit  13  is reset in the loading unit  12 . 
     The banknote processing management method when performing banknote processing using the banknote processing system  10  is such that when the banknote block B(a) is set in the loading unit  12 , the serial number SN of the partition card S(b) arranged on one of the outer sides of this banknote block B(a) in the stacking direction is imaged by the video camera  71 , and this imaging data is recorded in the video recorder  72 . Thereby, when imaging data is recorded of the scene in which the transaction operation clerk counts banknote blocks B(a) with the banknote processing device  11 , the serial number SN inscribed on the partition card S(b) that can specify which banknote block B(a) is being counted is also recorded. As a result, the management information can be diversified. Therefore, for example, if there is a complaint from a seller about the sales amount not matching the slip amount, it is possible to specify the imaging data that is the target record and allow the seller to view the imaging data. 
     INDUSTRIAL APPLICABILITY 
     According to the banknote processing system and to a banknote processing management method described above, diversification of management information is possible. 
     REFERENCE SYMBOLS 
     
         
         
           
               10 : Banknote processing system 
               11 : Banknote processing device 
               12 : Loading unit 
               13 : Reject unit 
               14 : Stacking unit 
               22 : Identification unit 
               31 : Operation display unit (notifying means) 
               32 : Control unit (detection means, control means) 
               65 : Front surface (one surface) 
               66 : Back surface (other surface) 
               71 : Video camera (imaging means) 
               72 : Video recorder (recording means) 
               81 : Higher-order terminal device 
               85 : Video camera (imaging means) 
               86 : Video recorder (recording means) 
             B(a): Banknote block 
             S(a): Banknote 
             S(b): Partition card 
             SN: Serial number (identification number)