JP2014063331A - Paper sheet reinspection device, paper sheet inspection system, and paper sheet inspection method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a paper sheet reinspection device, a paper sheet inspection system, and a paper sheet inspection method which enable more efficient inspection of paper sheets.SOLUTION: A paper sheet reinspection device includes; a retrieval unit 113 which takes in rejected paper sheets discharged from a paper sheet processing device 100 one by one; a conveyer unit 115 which conveys retrieved paper sheets at a second speed which is slower than a first speed; a first inspection unit 116 which inspects paper sheets being conveyed at the second speed in terms of a first set of inspection items; an assessment unit which assesses whether to reject the paper sheets or not based on inspection results; a counter unit which counts paper sheets which have been assessed not to be rejected by the assessment unit; a second inspection unit which inspects paper sheets which have been assessed to be rejected by the assessment unit in terms of a second set of inspection items which includes less items than the first set of inspection items; and an output unit which outputs the result of counting.

Description

  Embodiments described herein relate generally to a paper sheet re-inspection apparatus, a paper sheet inspection system, and a paper sheet inspection method.

  Conventionally, for example, a paper sheet processing apparatus for counting and discriminating paper sheets has been put into practical use. The paper sheet processing apparatus takes in the paper sheets input into the input unit one by one and conveys them to the paper sheet inspection apparatus. The inspection device performs various processes on the paper sheet to determine the state of the paper sheet.

  The paper sheet processing apparatus, based on the inspection result of the inspection apparatus, denomination of the paper sheet, the degree of contamination of the paper sheet (Ftainness Level), and the authenticity of the paper sheet (authentication) ) Etc. The paper sheet processing apparatus classifies and accumulates the paper sheets based on the determination result.

  In addition, a re-inspection apparatus for inspecting paper sheets (exclusion tickets) that could not be processed by the paper sheet processing apparatus has been put into practical use. The re-inspection apparatus inspects the rejected ticket and determines the type of paper sheet, the degree of contamination, the authenticity, and the like.

JP 2007-241742 A

  An operator who operates the paper sheet processing apparatus and the re-inspection apparatus inputs the rejection ticket excluded from the paper sheet processing apparatus into the re-inspection apparatus. The re-inspection device re-inspects the inserted rejection ticket. There is a need for more efficient re-inspection of such paper sheets.

  An object of the present invention is to provide a paper sheet re-inspection apparatus, a paper sheet inspection system, and a paper sheet inspection method that can inspect paper sheets more efficiently.

  The paper sheet re-inspection apparatus according to an embodiment transports a paper sheet at a first speed, inspects the transported paper sheet based on a first determination threshold, and determines the result of the inspection. A re-examination device that reexamines a rejection ticket that has been excluded from a paper sheet processing apparatus that excludes the paper sheet based on the paper sheet as a rejection ticket discharged from the paper sheet processing device. A take-in unit that takes in sheets one by one, a transport unit that transports the captured paper sheets at a second speed that is slower than the first speed, and an inspection of the paper sheets that are transported at the second speed An inspection unit, a determination unit for determining whether or not to exclude the paper sheet based on the result of the inspection, and a count for counting the paper sheet determined not to be excluded based on the determination result And an output unit for outputting the result of the counting.

FIG. 1 is a diagram for explaining a paper sheet inspection system according to an embodiment. FIG. 2 is a diagram for explaining a paper sheet processing apparatus according to an embodiment. FIG. 3 is a diagram for explaining a paper sheet processing apparatus according to an embodiment. FIG. 4 is a diagram for explaining a paper sheet processing apparatus according to an embodiment. FIG. 5 is a diagram for explaining a paper sheet inspection system according to an embodiment. FIG. 6 is a diagram for explaining a reinspection apparatus according to an embodiment. FIG. 7 is a diagram for explaining a reinspection apparatus according to an embodiment. FIG. 8 is a diagram for explaining a reinspection apparatus according to an embodiment. FIG. 9 is a diagram for explaining a reinspection apparatus according to an embodiment.

Hereinafter, embodiments of a paper sheet re-inspection apparatus, a paper sheet inspection system, and a paper sheet inspection method will be described in detail with reference to the drawings.
FIG. 1 shows an example of the configuration of a paper sheet inspection system 1 according to an embodiment.
The paper sheet inspection system 1 includes at least one paper sheet processing apparatus 100, a re-inspection apparatus 200, and a server 300. The paper sheet processing apparatus 100, the re-inspection apparatus 200, and the server 300 are connected to each other through a network in a state where data can be transmitted and received.

  The paper sheet processing apparatus 100 takes in a plurality of input paper sheets one by one at a high speed, and inspects the ticket type, degree of contamination, authenticity, and the like of the imported paper sheets. The paper sheet processing apparatus 100 counts paper sheets that are determined to be reusable. Further, the paper sheet processing apparatus 100 binds and discharges the inspected reusable paper sheets.

  Further, the paper sheet processing apparatus 100 determines whether or not reexamination is necessary for each paper sheet. The paper sheet processing apparatus 100 discharges paper sheets that are determined to require reexamination as an exclusion ticket.

  The paper sheet processing apparatus 100 processes a batch card inserted between a bundle of paper sheets. Unique identification information (ID) is printed on the batch card. The paper sheet processing apparatus 100 optically scans the batch card and acquires identification information.

  The paper sheet processing apparatus 100 associates the paper sheet count result, the paper sheet type, the batch card identification information, the determination result, and the like for each bundle of paper sheets. The sheet processing apparatus 100 transmits the associated inspection result (including the batch card ID, the sheet type, the number of sheets, and the determination result) to the server 300.

  Further, the paper sheet processing apparatus 100 discharges the batch card as an exclusion ticket. In other words, the paper sheet processing apparatus 100 discharges a bundle of the paper sheets determined to require re-examination and the batch card as an exclusion ticket.

  The server 300 attaches an index to the inspection result transmitted from the paper sheet processing apparatus 100 and stores it in a storage medium in the server 300.

  An operator who operates the paper sheet processing apparatus 100 and the re-inspection apparatus 200 inputs the rejection ticket discharged from the paper sheet processing apparatus 100 into the re-inspection apparatus 200. The reinspection apparatus 200 reinspects the inserted rejection ticket. In this case, the re-inspection apparatus 200 processes a bundle of paper sheets and batch cards in the same manner as the paper sheet processing apparatus 100.

  The paper sheet processing apparatus 100 and the reinspection apparatus 200 have different processing speeds for the requested paper sheets. For this reason, the re-inspection apparatus 200 conveys paper sheets at a slower speed than the paper sheet processing apparatus 100. Further, the re-inspection apparatus 200 can scan paper sheets with a finer resolution than the paper sheet processing apparatus 100. Further, the reinspection apparatus 200 can acquire identification information from a batch card inserted between paper sheets.

  The reinspection apparatus 200 performs reinspection in the normal processing mode in a normal state (default state). When the re-inspection apparatus 200 operates in the normal processing mode, the re-inspection apparatus 200 can inspect the paper sheet with higher accuracy than the paper sheet processing apparatus 100.

  For example, as described above, the re-inspection apparatus 200 conveys the paper sheet at a slower speed than the paper sheet processing apparatus 100, so that fluttering of the paper sheet can be suppressed. Further, as described above, the re-inspection apparatus 200 scans the paper sheet with a finer resolution than the paper sheet processing apparatus 100, so that finer printing of the paper sheet can be used for the determination. As a result, the reinspection apparatus 200 can execute various types of determination with higher accuracy.

  The reinspection apparatus 200 can execute reinspection in the confirmation processing mode. When the re-inspection apparatus 200 operates in the confirmation processing mode, the re-inspection apparatus 200 can inspect paper sheets with fewer items than the items used for discrimination of paper sheets as compared with the normal processing mode. Accordingly, when the re-inspection apparatus 200 operates in the confirmation processing mode, the items that can be visually confirmed by the operator can be excluded from the inspection items.

  Furthermore, when the re-inspection apparatus 200 operates in the confirmation processing mode, the re-inspection apparatus 200 may be configured to perform various types of determination using a threshold value different from the normal mode. Thereby, the re-inspection apparatus 200 can use a threshold value that makes it easier to determine that the paper sheet is a genuine note that can be recirculated. As a result, the reinspection apparatus 200 can prevent the number of paper sheet reinspections from increasing.

  Furthermore, the reinspection apparatus 200 can process the paper sheets in the non-inspection counting mode. When the re-inspection apparatus 200 operates in the non-inspection counting mode, the re-inspection apparatus 200 counts the number of paper sheets without discriminating the sheet type, authenticity, and fouling degree of the paper sheets. That is, the re-inspection apparatus 200 can count the number of paper sheets that have been confirmed to be genuine by the operator without performing discrimination. As a result, the reinspection apparatus 200 can prevent the number of paper sheet reinspections from increasing. Further, when the re-inspection apparatus 200 operates in the non-inspection counting mode, the re-inspection apparatus 200 can cut the counted paper sheets.

  Note that the re-inspection apparatus 200 acquires an image from paper sheets when operating in the non-inspection counting mode. Further, the reinspection apparatus 200 acquires a detection value obtained by each inspection device. When the re-inspection apparatus 200 operates in the non-inspection counting mode, the image of the paper sheet, the detected value of each inspector, the processing date and time, the operator name, the type of the paper sheet, the identification information of the batch card, and other Information and the like are stored in association with each other.

  The re-inspection apparatus 200 associates the paper sheet count result, the paper sheet type, the batch card identification information, the determination result, and the like for each bundle of paper sheets that are rejection tickets. The reinspection apparatus 200 transmits the associated reinspection result (including the batch card ID, the paper sheet type, the number of sheets, and the determination result) to the server 300.

  The server 300 combines the reinspection result transmitted from the reinspection apparatus 200 with the inspection result transmitted from the paper sheet processing apparatus 100, and stores the combined inspection result in a storage medium in the server 300. For example, the server 300 adds the reinspection result to the inspection result including identification information that matches the identification information included in the reinspection result.

FIG. 2 shows an appearance of the paper sheet processing apparatus 100 according to an embodiment.
As illustrated in FIG. 2, the paper sheet processing apparatus 100 includes a loading unit 112, an operation unit 136, an operation display unit 137, a door 138, an outlet 139, and a keyboard 140 outside the apparatus.

  The input unit 112 is configured to input a paper sheet P such as a banknote. The input unit 112 receives the stacked paper sheets P together. As described above, a batch card having unique identification information is inserted between the bundles of paper sheets P.

  The operation unit 136 receives various operation inputs by the operator. The operation display unit 137 displays various operation guidance and processing results for the operator. The operation display unit 137 may be configured as a touch panel. In this case, the sheet processing apparatus 100 detects various operation inputs based on the buttons displayed on the operation display unit 137 and the operations performed on the operation display unit 137 by the operator.

  The door 138 is a door for opening and closing the input port of the input unit 112. The take-out port 139 is configured to take out the paper sheet P from the stacking unit in which the paper sheets P determined to be non-recirculated by the paper sheet processing apparatus 100 are stacked. The keyboard 140 functions as an input unit that receives various operation inputs by an operator.

FIG. 3 shows a configuration example of the paper sheet processing apparatus 100 of FIG.
The sheet processing apparatus 100 includes an input unit 112, a take-out unit 113, a suction roller 114, a conveyance path 115, an inspection unit 116, gates 120 to 125, an exclusion conveyance path 126, an exclusion accumulation unit 127, an accumulation / bundling unit. 128 to 131, a cutting unit 133, and a stacker 134. Further, the paper sheet processing apparatus 100 includes a main control unit 151. The main control unit 151 controls the operation of each unit of the paper sheet processing apparatus 100 in an integrated manner.

  The take-out part 113 is provided in the upper part of the input part. The take-out unit 113 includes a suction roller 114. The suction roller 114 is provided so that the paper sheet P set in the input unit 112 is in contact with the upper end in the stacking direction. That is, the suction roller 114 rotates to take the paper sheets P set in the input unit 112 one by one from the upper end in the stacking direction. For example, the suction roller 114 functions to take out one sheet of paper P every rotation. As a result, the suction roller 114 takes out the paper sheet P at a constant pitch. The paper sheet P taken in by the suction roller 114 is introduced into the conveyance path 115. Further, the suction roller 114 may be configured to include a suction rotor that is sucked and taken out on the surface of a paper sheet by using, for example, a suction force of a vacuum pump.

  The conveyance path 115 conveys the paper sheet P to each part in the paper sheet processing apparatus 100. The conveyance path 115 includes a conveyance belt and a drive pulley (not shown). The conveyance path 115 operates the conveyance belt by a drive motor and a drive pulley (not shown). The conveyance path 115 conveys the paper sheet P taken in by the suction roller 114 at a constant speed by a conveyance belt. In the following description, the side near the take-out portion 113 in the transport path 115 is the upstream side, and the side near the stacker 134 is the downstream side.

  An inspection unit 116 is provided on the conveyance path 115 extending from the extraction unit 113. The inspection unit 116 includes an image reading device 117, an image reading device 118, and a thickness inspection unit 119. The inspection unit 116 detects optical characteristic information, mechanical characteristics, and magnetic characteristic information of the paper sheet P. Thereby, the paper sheet processing apparatus 100 detects the type (ticket type) of the paper sheet P, the degree of contamination, the authenticity, and the like.

  The image reading devices 117 and 118 are provided so as to face each other with the conveyance path 115 interposed therebetween. The image reading devices 117 and 118 read images on both sides of the paper sheet P conveyed through the conveyance path 115. Each of the image reading devices 117 and 118 includes a Charge Coupled Device (CCD) camera. The paper sheet processing apparatus 100 acquires the pattern images of the front and back surfaces of the paper sheet P based on the images captured by the image reading apparatuses 117 and 118. Further, the image reading devices 117 and 118 acquire an image of identification information printed on the batch card, and transmit the acquired image to the main control unit 151.

  The image reading devices 117 and 118 temporarily store the read images in a memory (not shown) in the inspection unit 116. The sheet processing apparatus 100 can display the image stored in the memory on the operation display unit 137 in accordance with an operation input.

  The thickness inspection unit 119 inspects the thickness of the paper sheet P conveyed through the conveyance path 115. For example, when the detected thickness is equal to or greater than a specified value, the paper sheet processing apparatus 100 detects two sheets of the paper sheet P.

  The inspection unit 116 includes a magnetic sensor (not shown). The magnetic sensor detects magnetic feature information of the paper sheet P.

  The main control unit 151 performs various determinations based on detection results obtained by the image reading devices 117 and 118, the thickness inspection unit 119, and a magnetic sensor. For example, the main control unit 151 determines the denomination of the paper sheet P.

  In addition, the main control unit 151 determines whether the paper sheet P is authentic. That is, the main control unit 151 determines whether the paper sheet P is a genuine note or a counterfeit note.

  In addition, the main control unit 151 detects the fitness of the paper sheet P. That is, the main control unit 151 determines whether the paper sheet P is a reflowable correct sheet or an unrecyclable non-reflowable sheet. .

  Further, the main control unit 151 determines whether or not the paper sheet P is a rejection ticket. That is, the main control unit 151 rejects the paper sheet P determined to be a fake ticket, the paper sheet P whose overlap has been detected by the thickness inspection unit 119, or the paper sheet P that cannot be discriminated. Is determined. In addition, the main control unit 151 detects a short pitch in which detection by each detector is not performed correctly because the distance between the front paper sheet P and the back paper sheet P is short in the transport path. P is determined to be an exclusion ticket.

  The main controller 151 can recognize the batch card identification information based on the batch card identification information image acquired by the image reading devices 117 and 118.

  The paper sheet processing apparatus 100 conveys the paper sheet P determined to be a genuine note to the stacking / binding unit 128 to 131. Further, the paper sheet processing apparatus 100 conveys the paper sheet P determined to be a non-performing ticket to the cutting unit 133. The cutting part 133 cuts the conveyed slip. In addition, the paper sheet processing apparatus 100 may convey and stack the non-use ticket to the stacker 134. For example, the stacker 134 performs sealing every time when the accumulated non-conformity tickets reach 100 sheets, for example.

  The paper sheet processing apparatus 100 conveys the paper sheet P determined to be an exclusion ticket to the rejection stacking unit 127. Excluded tickets include, for example, abnormally transported tickets such as a two-sheet pick-up ticket, defective tickets that are broken or torn, and indeterminate tickets such as non-applicable ticket types or fake tickets. In addition, the paper sheet processing apparatus 100 conveys the batch card inserted between the paper sheet P and the paper sheet P to the exclusion stacking unit 127 as an exclusion ticket.

  Gates 120 to 125 are sequentially arranged on the conveyance path 115 on the downstream side of the inspection unit 116. Each of the gates 120 to 125 is controlled by the main control unit 151. The main control unit 151 controls the operations of the gates 120 to 125 based on the result of the inspection by the inspection unit 116. As a result, the main control unit 151 performs control so that the paper sheet P conveyed through the conveyance path 115 is conveyed to a predetermined processing unit.

  A gate 120 disposed immediately after the inspection unit 116 branches the conveyance path 115 to an exclusion conveyance path 126. That is, the gate 120 conveys the rejected ticket that is determined not to be a genuine note as a result of the inspection by the inspection unit 116, or the uninspectable ticket that cannot be inspected by the inspection unit 116, to the exclusion conveyance path 126. Can be switched to.

  An exclusion stacking unit (exclusion unit) 127 is provided at the end of the exclusion transport path 126. The exclusion stacking unit 127 stacks the above exclusion ticket and the inspection impossible ticket in the posture taken out by the taking-out unit 113. The paper sheets P accumulated in the exclusion stacking unit 127 can be taken out from the take-out port 139.

  Further, stacking / binding portions 128 to 131 (generally referred to as a stacking and binding portion 132) are provided at the branches of the gates 121 to 124, respectively. In the stacking / binding unit 132, the paper sheets P determined to be redistributable are stacked separately for each ticket type and front and back. The stacking / binding unit 132 binds and stores the stacked paper sheets P every predetermined number of sheets.

  A cutting portion 133 is disposed at a point branched by the gate 125. The cutting unit 133 cuts and stores the paper sheet P. The paper sheet P conveyed to the gate 125 is a normal paper sheet P, and is a paper sheet P (damaged ticket) that is determined to be unrecyclable.

  Further, a stacker 134 is disposed at the tip of the other conveyance path branched by the gate 125. The main control unit 151 controls the gate 125 so that the paper sheet P is conveyed to the cutting unit 133 when the non-paying sheet cutting mode is selected. Further, the main control unit 151 controls the gate 125 so as to transport the paper sheet P to the stacker 134 when the non-paying sheet cutting mode is not selected.

  The operator can arbitrarily set the type (ticket type) of the paper sheet P to be processed by the paper sheet processing apparatus 100 by operating the operation unit 136, the operation display unit 137, the keyboard 140, and the like. it can.

  The main control unit 151 displays the counting result of the paper sheets P conveyed to the stacking / binding unit 132 or the cutting unit 133, the type of paper sheets, the identification information of the batch card, the determination result, and the like. The result is stored as an inspection result in association with each bundle of paper sheets. Further, the main control unit 151 transmits the inspection result to the server 300.

FIG. 4 shows a configuration example of a control system of the paper sheet processing apparatus 100 of FIGS.
The sheet processing apparatus 100 includes a main control unit 151, an inspection unit 116, a conveyance control unit 152, a cutting control unit 156, an operation display unit 137, a keyboard 140, and the like. The sheet processing apparatus 100 includes a printer 141, a USB hub 161, a transport controller 162, a bander controller 163, a detection controller 164, and the like.

  The main control unit 151 governs overall control of the sheet processing apparatus 100. The main control unit 151 can be realized by a part of a PC (personal computer), for example.

The main control unit 151 controls the conveyance control unit 152 and the cutting control unit 156 based on the operation input by the operation display unit 137 and the inspection result by the inspection unit 116. Further, the main control unit 151 can output the processing result and the like as a form by the printer 141.

  In addition, a USB hub 161 is connected to the main control unit 151. In addition, a transport controller 162, a bander controller 163, a detection controller 164, and the like are connected to the USB hub 161.

  The main control unit 151 can control operations of the transport control unit 152, the cutting control unit 156, the take-out unit 113, and the like via the transport controller 162. Further, the main control unit 151 can control the operations of the stacking / binding units 128 to 131 via the bander controller 163. Further, the main control unit 151 can control the operation of each detection device of the inspection unit 116 via the detection controller 164.

  For example, the operator inputs a threshold for each processing item, a name of a supply source of the paper sheet P, a processing method, and the like in various determinations for the paper sheet P to be processed, using the operation display unit 137 or the keyboard 140.

  As described above, the inspection unit 116 includes the image reading devices 117 and 118, the thickness inspection unit 119, and the like.

  The transport control unit 152 controls the take-out unit 113, the transport path 115, the exclusion transport path 126, and the gates 120 to 125 based on the control of the main control unit 151. Thereby, the conveyance control unit 152 controls the taking-in and conveyance of the paper sheet P. Further, the transport control unit 152 performs a sorting process for sorting for each ticket type of the determined paper sheet P. That is, the transport control unit 152 functions as a sorting processing unit.

  For example, the conveyance control unit 152 controls the gates 120 to 125 so as to convey the paper sheet P determined to be a non-performing paper to the cutting unit 133 or the stacker 134. Further, the transport control unit 152 controls the gates 120 to 125 so as to transport the paper sheet P and the batch card determined to be the rejection ticket to the rejection stacking unit 127.

  The bander controller 163 controls the exclusion stacking unit 127 and the stacking / binding units 128 to 131 based on the control of the main control unit 151. As a result, the bander controller 163 controls the accumulation and binding of the paper sheets P.

  The cutting control unit 156 controls the operation of the cutting unit 133 based on the control of the main control unit 151. Accordingly, the cutting unit 133 performs cutting of the conveyed paper sheet P.

  In addition, the main control unit 151 includes a memory 151 a that stores in advance a threshold value (first determination threshold value) for each inspection item by each inspection device of the inspection unit 116. The main control unit 151 compares the detection value detected by each inspector of the inspecting unit 116 with the threshold value stored in the memory 151a, and based on the comparison result, the ticket type, authenticity, It is determined whether or not the damage is correct and the paper sheet P is a rejection ticket.

  Note that the first determination threshold value stored in the memory 151a may be changed based on inputs to the operation unit 136, the operation display unit 137, the keyboard 140, and the like.

FIG. 5 shows an example of a bundle of paper sheets P and batch cards that are loaded into the paper sheet processing apparatus 100.
First, a bundle B of 1000 sheets P is made. There are, for example, the following two methods for making the bundle B.

  As a method of making the first bundle, there is a method of stacking ten bundles 52 of 100 sheets of paper sheets P from which the sealing band 51 collected by the same collection engine is removed. In this case, one batch card 53 is inserted into a bundle B of 1000 sheets P.

  In addition, as a method of creating the second bundle, there is a method of inserting a batch card 53 for each bundle 52 of paper sheets P without a sealing band collected by different collection agencies.

  The processing for inserting the batch card 53 into the bundle 52 of paper sheets P is performed by the operator before the processing by the paper sheet processing apparatus 100.

FIG. 6 shows an example of the configuration of the reinspection apparatus 200.
The operator takes out the rejection ticket discharged from the paper sheet processing apparatus 100 and supplies it to the input unit of the reinspection apparatus 200. The reject ticket is discharged from the paper sheet processing apparatus 100 in a state where the discharged paper sheets P and the batch cards are stacked.

  The re-inspection apparatus 200 includes an input unit 212 and an operation display unit 237 outside the apparatus. The re-inspection apparatus 200 includes a take-out unit 213, a suction roller 214, a conveyance path 215, an inspection unit 216, stacking units 228 to 231, a cutting unit 233, and an exclusion stacking unit 234. The re-inspection apparatus 200 includes a main control unit 251. The main control unit 251 comprehensively controls the operation of each unit of the reinspection apparatus 200.

  The input unit 212, the extraction unit 213, the suction roller 214, and the conveyance path 215 have the same configurations as the input unit 112, the extraction unit 113, the suction roller 114, and the conveyance path 115 of the paper sheet processing apparatus 100. The input unit 212 receives the supplied exclusion ticket.

  The take-out part 213 is provided in the upper part of the input part. The take-out unit 213 includes a suction roller 214. The suction roller 214 takes the sheets P set in the input unit 212 one by one into the apparatus. The paper sheet P taken in by the suction roller 214 is introduced into the conveyance path 215.

  The conveyance path 215 conveys the paper sheet P to each part in the reinspection apparatus 200. The conveyance path 215 includes a conveyance belt and a drive pulley that are not shown. The conveyance path 215 operates the conveyance belt by a drive motor and a drive pulley (not shown). The conveyance path 215 conveys the paper sheet P taken in by the suction roller 214 at a constant speed by the conveyance belt. In addition, the side close to the take-out unit 213 in the transport path 215 will be described as the upstream side, and the side close to the cutting unit 233 will be described as the downstream side.

  The transport path 215 of the reinspection apparatus 200 transports the paper sheet P at a slower speed than the transport path 115 of the paper sheet processing apparatus 100. Thereby, the conveyance path 215 can suppress the flapping of the paper sheet P more than the conveyance path 115.

  An inspection unit 216 is provided on the conveyance path 215 extending from the extraction unit 213. The inspection unit 216 includes an image reading device, a magnetic detection device, a thickness inspection unit, and the like. The inspection unit 216 detects optical feature information, mechanical feature, and magnetic feature information of the paper sheet P. Thereby, the reinspection apparatus 200 detects the type (ticket type) of the paper sheet P, the degree of contamination, the authenticity, and the like.

  The image reading apparatuses are provided in pairs so as to face each other with the conveyance path 215 interposed therebetween. The image reading device reads images on both sides of the paper sheet P conveyed through the conveyance path 215. Each of the pair of image reading apparatuses includes a Charge Coupled Device (CCD) camera. The reexamination device 200 acquires the pattern images of the front and back surfaces of the paper sheet P based on the image captured by the image reading device. Further, the image reading apparatus acquires an image of identification information printed on the batch card, and transmits the acquired image to the main control unit 251.

  The image reading apparatus temporarily stores the read image in a memory (not shown) in the inspection unit 216. The reinspection apparatus 200 can display the image stored in the memory on the operation display unit 237 according to the operation input.

  The thickness inspection unit inspects the thickness of the paper sheet P conveyed through the conveyance path 215. For example, when the detected thickness is equal to or greater than a specified value, the re-inspection apparatus 200 detects two sheets of the paper sheet P.

  The magnetic detection device (magnetic ship sensor) detects magnetic feature information of the paper sheet P.

  The operation display unit 237 displays various operation guides and processing results for the operator. Note that the operation display unit 237 may be configured as a touch panel. In this case, the reinspection apparatus 200 detects various operation inputs based on the buttons displayed on the operation display unit 237 and the operations performed by the operator on the operation display unit 237.

  The main control unit 251 performs various determinations based on the detection results detected by the detectors of the inspection unit 216 (that is, the image, magnetism, thickness, and the like detected from the paper sheet P). The main control unit 251 determines the type, authenticity, and damage of the paper sheet P.

  Further, the main control unit 251 determines whether or not the paper sheet P should be excluded. For example, the main control unit 251 uses paper sheets P that have been determined to be fake tickets, paper sheets P that have been detected to be overlapped by the thickness inspection unit, or paper sheets P that cannot be identified as rejection tickets. Judge that there is.

  In addition, the main control unit 251 detects the short pitch that is not correctly detected by each detector because the distance between the front paper sheet P and the back paper sheet P is short in the transport path. P is determined to be an exclusion ticket.

  Further, the main control unit 251 can recognize the batch card identification information based on the batch card identification information image acquired by the image reading device of the inspection unit 216.

  The reinspection apparatus 200 conveys the paper sheet P determined to be a genuine note to the stacking units 228 to 231. Further, the reinspection apparatus 200 conveys the paper sheet P determined to be a non-performing ticket to the cutting unit 233. The cutting unit 233 includes a cutting machine 233a and a stacker 233b. The cutting machine 233a of the cutting unit 233 cuts the conveyed slip. The cutting unit 233 accumulates the cut paper sheets P in the stacker 233b. The stacker 233b includes a takeout port through which a piece of paper can be removed from the outside. That is, the operator can take out the paper pieces of the paper sheets P accumulated in the stacker 233b cut from the take-out port.

  The reinspection apparatus 200 conveys the paper sheet P determined to be an exclusion ticket to the exclusion stacking unit 234. Excluded tickets include, for example, abnormally transported tickets such as a two-sheet pick-up ticket, defective tickets that are broken or torn, and indeterminate tickets such as non-applicable ticket types or fake tickets. Further, the reinspection apparatus 200 conveys the paper sheet P and the batch card inserted between the paper sheets P to the exclusion stacking unit 234 as an exclusion ticket.

  A plurality of gates (not shown) are provided on the conveyance path 215 on the downstream side of the inspection unit 216. Each of the gates is controlled by the main control unit 251. The main control unit 251 controls the operation of each gate based on the inspection result by the inspection unit 216. As a result, the main control unit 251 performs control so that the paper sheet P being conveyed through the conveyance path 215 is conveyed to a predetermined processing unit.

  In addition, the main control unit 251 transfers each gate and transport so that the rejected ticket determined not to be a genuine note or the uncheckable ticket that cannot be inspected by the inspection unit 216 is accumulated in the exclusion stacking unit 234. Control the road. The exclusion stacking unit 234 is configured so that the operator can take out the stacked paper sheets P.

  The main control unit 251 controls each gate and the conveyance path so that the paper sheet P determined to be a genuine note is conveyed to the stacking units 228 to 231 (collectively referred to as the stacking unit 232).

  In addition, the main control unit 251 controls each gate and the conveyance path so that the paper sheet P determined to be a non-performing sheet is conveyed to the cutting unit 233.

  The operator can arbitrarily set the type (ticket type) of the paper sheet P to be processed by the reinspection apparatus 200 by operating the operation display unit 237 or the like.

  Note that the main control unit 251 displays the counting result of the paper sheets P conveyed to the stacking unit 232 or the cutting unit 233, the paper sheet type, the batch card identification information, the determination result, and the like. The result is stored as a re-examination result in association with each bundle of classes. In addition, the main control unit 251 transmits the reinspection result to the server 300.

  The main control unit 251 includes a memory 251a that stores in advance a threshold value (second determination threshold value) for each inspection item by each inspection device of the inspection unit 216. The main control unit 251 compares the detection value detected by each inspection device of the inspection unit 216 with the threshold value stored in the memory 251a, and based on the comparison result, the sheet type, authenticity, It is determined whether or not the damage is correct and the paper sheet P is a rejection ticket.

  Note that the second determination threshold value stored in the memory 251a may be changed based on an input to the operation display unit 237 or the like.

  The server 300 combines the reinspection result transmitted from the reinspection apparatus 200 with the inspection result transmitted from the paper sheet processing apparatus 100, and stores the combined inspection result in a storage medium in the server 300. For example, the server 300 adds the reinspection result to the inspection result including identification information that matches the identification information included in the reinspection result.

  In addition, the paper sheet P discharged | emitted as a rejection ticket by the paper sheet processing apparatus 100 is generally a ratio of several percent of the whole. For this reason, the processing speed required for the re-inspection apparatus 200 is lower than that of the paper sheet processing apparatus 100. For this reason, as described above, the reinspection apparatus 200 takes out and conveys the paper sheet P at a slower speed than the paper sheet processing apparatus 100. For this reason, the re-inspection apparatus 200 can suppress fluttering at the time of transporting the paper sheet P compared to the paper sheet processing apparatus 100.

  Each detector of the inspection unit 116 and the inspection unit 216 detects each value at a timing (timing clock) synchronized with the conveyance speed of the paper sheet P. Also in this case, since the re-inspection apparatus 200 conveys the paper sheet P at a slower speed than the paper sheet processing apparatus 100, each detector of the inspection unit 216 is finer than each value of the inspection unit 116. Can be detected. That is, each detector of the inspection unit 216 can detect each value with a shorter sampling period than the inspection unit 116.

  The reinspection apparatus 200 can inspect the characteristics of the paper sheet P more finely than the paper sheet processing apparatus 100 based on the highly accurate data detected in this way. Thereby, the reexamination apparatus 200 can discriminate | determine the rejection ticket determined to be indistinguishable by the paper sheet processing apparatus 100 with higher accuracy.

  Further, the re-inspection apparatus 200 can use a longer time for discrimination per sheet P than the sheet processing apparatus 100. Therefore, the reinspection apparatus 200 can determine the paper sheet P using a more complicated calculation than the paper sheet processing apparatus 100. For example, the reinspection apparatus 200 can use more inspection items for the determination of the paper sheet P than the paper sheet processing apparatus 100.

  For example, in the paper sheet processing apparatus 100, a part of the paper sheet P is used for determining the paper sheet P. On the other hand, the re-inspection apparatus 200 can use a larger part on the paper sheet P for discriminating the paper sheet P than the paper sheet processing apparatus 100.

  As a result, the reinspection apparatus 200 can determine various characteristics of the paper sheet P using inspection items different from those of the paper sheet processing apparatus 100. Thereby, the reinspection apparatus 200 can determine the characteristics of the paper sheet P with higher accuracy than the paper sheet processing apparatus 100.

  Further, since the re-inspection apparatus 200 transports the paper sheet P at a slower speed than the paper sheet processing apparatus 100, each detector of the inspection unit 216 is more sensitive to each paper sheet P than the inspection unit 116. Each value can be detected in a state where there is little variation in. For this reason, the reinspection apparatus 200 sets the second determination threshold stored in the memory 251a wider than the first determination threshold stored in the memory 151a of the paper sheet processing apparatus 100. can do.

FIG. 7 shows an example of detection results and determination threshold values when the paper sheet P is stationary.
When the paper sheet P is stationary, no flapping occurs. For this reason, the detection value detected from the paper sheet P by the inspection device does not vary for each paper sheet P. For this reason, the difference between the detection value (correct ticket signal A) detected from the paper sheet P as a genuine note and the detection value (false ticket signal A) detected from the paper sheet P as a false note is large. Become.

FIG. 8 shows an example of the detection result of the paper sheet P by the paper sheet processing apparatus 100 and the first determination threshold value set in the memory 151a.
In the paper sheet processing apparatus 100, the paper sheet P is processed at a higher speed than the re-inspection apparatus 200. For this reason, the detection value detected from the paper sheet P by each inspection device of the inspection unit 116 varies for each paper sheet P. For this reason, the difference between the detected value (correct ticket signal B) detected from the paper sheet P, which is a genuine note, and the detected value (false ticket signal B) detected from the paper sheet P, which is a false note, is small. There is a possibility.

FIG. 9 shows an example of the detection result of the paper sheet P by the re-inspection apparatus 200 and the second determination threshold value set in the memory 251a.
In the re-inspection apparatus 200, the paper sheet P is processed at a lower speed than the paper sheet processing apparatus 100. For this reason, the variation of the detected value detected from the paper sheet P by each inspection device of the inspection unit 216 is smaller than that of the paper sheet processing apparatus 100. For this reason, the difference between the detected value (correct ticket signal C) detected from the paper sheet P, which is a genuine note, and the detected value (false ticket signal C) detected from the paper sheet P, which is a false note, It becomes larger than the detection result by the paper sheet processing apparatus 100.

That is, the above-described correct ticket signals (most frequent values) A, B, and C satisfy the relationship of “correct ticket signal A> correct ticket signal B> correct ticket signal C”. Further, the false ticket signals (maximum values) A, B, and C satisfy the relationship “false ticket signal A = false ticket signal B = false ticket signal C”. As a result, the determination margin satisfies the relationship of determination margin C> determination margin B. That is, the possibility that the paper sheet P, which is the same correct ticket, is excluded by the re-inspection apparatus 200 is compared to the possibility that the paper sheet processing apparatus 100 excludes the paper sheet P, the paper sheet processing apparatus 100 corrects the fake ticket. In order to prevent it from being determined as a ticket, it is necessary to set a narrow pass range indicated by the first determination threshold. For this reason, the paper sheet processing apparatus 100 is set with the first determination threshold value B that is easier to determine that the same paper sheet P is a rejection ticket than the re-inspection apparatus 200 (the pass range is narrow). In addition, since the re-inspection apparatus 200 has a small flapping for each paper sheet P, the possibility of determining that the counterfeit ticket is a genuine ticket is lower than that of the paper sheet processing apparatus 100. For this reason, the re-inspection apparatus 200 is set with the second determination threshold value C that is less likely to be determined as the rejection ticket (wide acceptance range) than the paper sheet processing apparatus 100. The reinspection apparatus 200 can set a threshold value at which the paper sheet P is more likely to be determined as a genuine note than the first determination threshold value as the second determination threshold value. As a result, it is possible to provide a paper sheet re-inspection apparatus, a paper sheet inspection system, and a paper sheet inspection method that can inspect paper sheets more efficiently.

  The reinspection apparatus 200 performs reinspection in the normal processing mode in a normal state (default state). The normal processing mode is a predetermined processing mode for reinspecting the rejected ticket. The reinspection apparatus 200 performs the reinspection as described above when operating in the normal processing mode. In addition, when operating in the normal processing mode, the re-inspection apparatus 200 stores the number of paper sheets P determined to be a correct ticket or a damaged ticket and the number of determination results for each inspection item.

  Furthermore, the re-inspection apparatus 200 performs re-inspection in the confirmation processing mode for the paper sheet P that has been excluded in the normal processing mode. The confirmation processing mode is a mode for the operator operating the re-inspection apparatus 200 to revoke the paper sheet P that has been determined to be valid (correct or non-defective) by visual confirmation. The reinspection apparatus 200 switches the reinspection apparatus 200 from the normal mode to the confirmation processing mode in response to an operation input to the operation display unit 237. The re-inspection apparatus 200 may be configured to automatically switch from the normal processing mode to the confirmation processing mode when a rejected ticket is generated in the normal processing mode.

  When the re-inspection apparatus 200 operates in the confirmation processing mode, the re-inspection apparatus 200 can inspect paper sheets with fewer items than the items used for discrimination of paper sheets as compared with the normal processing mode. Accordingly, when the re-inspection apparatus 200 operates in the confirmation processing mode, the items that can be visually confirmed by the operator can be excluded from the inspection items. In other words, when the re-inspection apparatus 200 operates in the confirmation processing mode, the paper sheet with the second inspection item set having fewer inspection items than the inspection item set (first inspection item set) in the normal processing mode. Re-examine P. Furthermore, the re-inspection apparatus 200 cuts the paper sheet P for which the counting has been performed by the cutting unit 233.

  Further, the re-inspection apparatus 200 may be configured to change a determination threshold value of a specific inspection item instead of excluding a specific item from the inspection item. For example, when the re-inspection apparatus 200 operates in the confirmation processing mode, it is difficult to determine that the paper sheet P is a rejection ticket as compared with the normal processing mode in terms of the determination threshold of items that can be visually confirmed by the operator. Change to a value (wide acceptance range). Thereby, the reexamination apparatus 200 can prevent the frequency | count of the reexamination of paper sheets increasing.

  The inspection items that can be visually confirmed by the operator are, for example, a watermark, pasting with a tape, and a degree of a defect. When the reinspection apparatus 200 operates in the confirmation processing mode, the reexamination apparatus 200 excludes these items from the inspection items, or changes the determination threshold used for the inspection of these items.

  The reinspection apparatus 200 switches the reinspection apparatus 200 from the confirmation processing mode to the no-inspection counting mode in response to an operation input to the operation display unit 237. Further, the re-inspection apparatus 200 may be configured to automatically switch from the confirmation processing mode to the non-inspection counting mode when a rejection ticket is generated in the confirmation processing mode. Furthermore, the re-inspection apparatus 200 may be configured to permit switching to the non-inspection counting mode when a predetermined authentication process using a password is performed.

  When the re-inspection apparatus 200 operates in the non-inspection counting mode, the re-inspection apparatus 200 counts the number of paper sheets without discriminating the sheet type, authenticity, and fouling degree of the paper sheets. That is, the re-inspection apparatus 200 can count the number of paper sheets that have been confirmed to be genuine by the operator without performing discrimination. As a result, the reinspection apparatus 200 can prevent the number of paper sheet reinspections from increasing. Further, when the re-inspection apparatus 200 operates in the non-inspection counting mode, the paper sheet P on which the counting has been performed is cut by the cutting unit 233.

  Note that the re-inspection apparatus 200 acquires an image from paper sheets when operating in the non-inspection counting mode. Further, the reinspection apparatus 200 acquires a detection value obtained by each inspection device. When the re-inspection apparatus 200 operates in the non-inspection counting mode, the image of the paper sheet, the detected value of each inspector, the processing date and time, the operator name, the type of the paper sheet, the identification information of the batch card, and other Information or the like is associated and stored as a processing history.

  In addition, the reinspection apparatus 200 can display each piece of information of the processing history on the operation display unit 137 in accordance with an operation input. In response to the operation input, the reinspection apparatus 200 stores the stored image of the paper sheet P, the detection value of each inspector, the processing date and time, the operator name, the type of the paper sheet, the identification information of the batch card, and other Information or the like can be displayed on the operation display unit 137. Further, the re-inspection apparatus 200, in response to the operation input, stores the image of the paper sheet P, the detection value of each inspector, the processing date and time, the operator name, the type of paper sheet, the batch card identification information, Any one or a plurality of conditions among other information can be specified, and inspection results (detected values of each inspector) that meet the specified conditions can be displayed on the operation display unit 137.

  All of the rejected tickets are counted and expired by any one of the above three processing modes. In this case, the reinspection apparatus 200 transmits the counted result, that is, the reinspection result to the server 300.

  The server 300 combines the reinspection result transmitted from the reinspection apparatus 200 with the inspection result transmitted from the paper sheet processing apparatus 100, and stores the combined inspection result in a storage medium in the server 300. For example, the server 300 adds the reinspection result to the inspection result including identification information that matches the identification information included in the reinspection result. As a result, the server 300 calculates the total of the number of paper sheets P determined to be genuine by the paper sheet processing apparatus 100 or the re-inspection apparatus 200 and the paper sheets P determined to be defective. When the total result by the server 300 matches the predetermined number of sheets input in advance by the operator, a series of inspections of the paper sheet P is completed.

  As described above, the reinspection apparatus 200 can make a determination using a threshold value that makes it easier to determine that a paper sheet is a genuine note that can be recirculated. As a result, the reinspection apparatus 200 can prevent the number of paper sheet reinspections from increasing. The re-inspection apparatus 200 stores the detection value of the inspection unit 216 used for the inspection in a traceable state. Thereby, the reinspection apparatus 200 can prevent the paper sheets P from being illegally counted. As a result, it is possible to provide a paper sheet re-inspection apparatus, a paper sheet inspection system, and a paper sheet inspection method that can inspect paper sheets more efficiently while maintaining high security.

  It should be noted that the functions described in the above embodiments are not limited to being configured using hardware, but can be realized by causing a computer to read a program describing each function using software. Each function may be configured by appropriately selecting either software or hardware.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. Further, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine suitably the component covering different embodiment.

  DESCRIPTION OF SYMBOLS 1 ... Paper sheet inspection system, 100 ... Paper sheet processing apparatus, 112 ... Input part, 113 ... Extraction part, 114 ... Adsorption roller, 115 ... Conveyance path, 116 ... Inspection part, 117 ... Image reader, 118 ... Image Reading device, 119 ... thickness inspection section, 120 ... gate, 125 ... gate, 126 ... exclusion transport path, 127 ... exclusion stacking section, 132 ... stacking / binding section, 133 ... cutting section, 134 ... stacker, 136 ... operation section, DESCRIPTION OF SYMBOLS 137 ... Operation display part, 140 ... Keyboard, 151 ... Main control part, 151a ... Memory, 152 ... Conveyance control part, 156 ... Cutting control part, 200 ... Reexamination device, 212 ... Input part, 213 ... Extraction part, 214 ... Adsorption roller, 215 ... conveying path, 216 ... inspection unit, 232 ... accumulation unit, 233 ... cutting unit, 234 ... exclusion accumulation unit, 237 ... operation display unit, 251 ... main control unit, 251a ... memory 300 ... server.

Claims (7)

A paper sheet processing apparatus that transports paper sheets at a first speed, inspects the transported paper sheets based on a first determination threshold, and excludes the paper sheets based on a result of the inspection. A re-inspection device for re-inspecting a rejected ticket excluded from
A take-in unit that takes in sheets one by one as an exclusion ticket discharged from the paper sheet processing apparatus;
A transport unit that transports the captured paper sheet at a second speed that is slower than the first speed;
A first inspection unit that inspects the paper sheet being conveyed at the second speed with a first set of inspection items;
Based on the result of the inspection, a determination unit for determining whether to exclude the paper sheet,
A first counting unit that counts the paper sheets determined not to be excluded based on the determination result;
A second inspection unit that inspects the paper sheets determined to be excluded by the determination unit with a second set of inspection items having fewer items than the first set of inspection items;
An output unit for outputting the result of the counting;
Paper sheet re-inspection device. Regardless of the result of the determination, a second counting unit that counts paper sheets being conveyed by the conveying unit;
A cutting unit for cutting the paper sheets counted by the first counting unit and the second counting unit;
The re-inspection apparatus according to claim 1, further comprising:   The re-inspection apparatus according to claim 2, further comprising a storage unit that stores detection values detected from the paper sheets by the first and second inspection units.   The said memory | storage part matches the said detection value with the date which the test | inspection by the said 1st and 2nd test | inspection part was performed, the person in charge of inspection, and the said bill type, and memorize | stores it. The re-inspection apparatus according to 3.   The search part which searches the said detected value memorize | stored by the said memory | storage part based on the conditions in any one of the said date, the said person in charge of inspection, and the said bill type of paper sheets is further provided. Re-inspection equipment. A paper sheet inspection system comprising: a paper sheet processing apparatus; and a re-inspection apparatus that re-inspects the rejection ticket excluded from the paper sheet processing apparatus,
The paper sheet processing apparatus includes:
A first capturing unit that captures the paper sheets one by one;
A first transport unit that transports the captured paper sheet at a first speed;
A first inspection unit that inspects the paper sheet being conveyed at the first speed with a first set of inspection items;
A first determination unit for determining whether to exclude the paper sheet based on the result of the inspection;
A first counting unit that counts the paper sheets determined not to be excluded based on the determination result;
A first output unit for outputting the result of the counting;
Comprising
The re-inspection device
A second fetching unit for fetching sheets one by one as a rejection ticket determined to be excluded by the first determination unit;
A second transport unit that transports the captured paper sheet at a second speed that is slower than the first speed;
A second inspection unit that inspects the paper sheet being conveyed at the second speed with a second set of inspection items;
A second discriminating unit for discriminating whether or not to exclude the paper sheet based on the result of the inspection;
A second counting unit that counts the paper sheets determined not to be excluded based on the determination result;
A third inspection unit that inspects the paper sheet determined to be excluded by the second determination unit with a third set of inspection items that has fewer items than the second set of inspection items;
A second output unit for outputting the result of the counting;
A paper sheet inspection system. A paper sheet inspection method used in a paper sheet inspection system having a paper sheet processing apparatus and a re-inspection apparatus for re-inspecting an exclusion ticket excluded from the paper sheet processing apparatus,
The paper sheet processing apparatus includes:
Take the sheets one by one,
Transporting the captured paper sheets at a first speed;
Inspecting the paper sheets being conveyed at the first speed with a first set of inspection items,
Based on the result of the inspection, it is determined whether to exclude the paper sheet,
Based on the result of the determination, the paper sheets determined not to be excluded are counted,
Output the result of the counting,
The re-inspection device
Taking in one sheet at a time as an exclusion ticket determined to be excluded by the sheet processing apparatus,
Transporting the captured paper sheets at a second speed slower than the first speed;
Inspecting the paper sheets being conveyed at the second speed with a second set of inspection items,
Based on the result of the inspection, it is determined whether to exclude the paper sheet,
Based on the result of the determination, the paper sheets determined not to be excluded are counted,
Based on the determination result based on the second set of inspection items, the paper sheets determined to be excluded are inspected with a third set of inspection items having fewer items than the second set of inspection items,
Based on the result of the inspection based on the third set of inspection items, determine whether or not to exclude the paper sheet,
Based on the result of determination based on the third set of inspection items, count the paper sheets determined not to be excluded,
Outputting the result of the counting,
Paper sheet inspection method.

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