WO2022224905A1 - ディビジョンカード - Google Patents
ディビジョンカード Download PDFInfo
- Publication number
- WO2022224905A1 WO2022224905A1 PCT/JP2022/017850 JP2022017850W WO2022224905A1 WO 2022224905 A1 WO2022224905 A1 WO 2022224905A1 JP 2022017850 W JP2022017850 W JP 2022017850W WO 2022224905 A1 WO2022224905 A1 WO 2022224905A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- card
- identification
- paper sheet
- edge portion
- division
- Prior art date
Links
- 238000012545 processing Methods 0.000 claims abstract description 59
- 229920003002 synthetic resin Polymers 0.000 claims abstract description 19
- 239000000057 synthetic resin Substances 0.000 claims abstract description 19
- 238000003780 insertion Methods 0.000 abstract 1
- 230000037431 insertion Effects 0.000 abstract 1
- 230000032258 transport Effects 0.000 description 35
- 238000012986 modification Methods 0.000 description 14
- 230000004048 modification Effects 0.000 description 14
- 238000009825 accumulation Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 238000005452 bending Methods 0.000 description 1
- 238000004040 coloring Methods 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
Images
Classifications
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D11/00—Devices accepting coins; Devices accepting, dispensing, sorting or counting valuable papers
- G07D11/10—Mechanical details
- G07D11/16—Handling of valuable papers
- G07D11/165—Picking
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D11/00—Devices accepting coins; Devices accepting, dispensing, sorting or counting valuable papers
- G07D11/20—Controlling or monitoring the operation of devices; Data handling
- G07D11/22—Means for sensing or detection
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D7/00—Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency
- G07D7/06—Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency using wave or particle radiation
- G07D7/12—Visible light, infrared or ultraviolet radiation
Definitions
- the present invention relates to division cards. This application claims priority based on Japanese Patent Application No. 2021-70224 filed in Japan on April 19, 2021, the content of which is incorporated herein.
- Patent Literature 1 describes a paper sheet processing apparatus that processes two or more processing target paper sheet groups collectively while classifying the processing target paper sheet groups in batch processing units by division cards.
- the division card described in Patent Document 1 an identification hole group penetrating in the card thickness direction is formed in the card main body.
- a division card is detected based on the detection pattern of the sensor light that has passed through the identification hole group of the division card, and the paper sheet group to be processed is determined.
- the division card disclosed in Patent Document 1 has a card main body made of paper and has a through hole. Therefore, the division card may become unusable due to repeated use due to bending or tearing. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a division card which has improved durability and which can be used repeatedly for a long period of time.
- the division card of the first aspect of the present invention can be taken in from an input port of a paper sheet processing apparatus for processing paper sheets, and is arranged so as to overlap with at least one paper sheet to be processed.
- a division card according to a second aspect of the present invention is the division card according to the first aspect, wherein the card main body includes a shielding portion that shields the sensor light without allowing the sensor light to pass therethrough, and the identification portion that allows the sensor light to pass through. and may be provided.
- the take-in sensor of the paper sheet processing apparatus for processing division cards of the second aspect may be a transmissive sensor that reads the identification information using sensor light.
- the paper sheet processing apparatus detects the sensor light transmitted through the identification section by the taking-in sensor with respect to the division card according to the second aspect.
- the paper sheet processing apparatus can read the identification information of the identification unit, such as information indicating that the paper sheet is a division card. Therefore, in the division card according to the second aspect, since it is not necessary to form a through hole or the like in the identification portion, the durability of the card body portion can be enhanced.
- the card body in the division card of the second aspect includes a synthetic resin layer capable of transmitting the sensor light, and a shielding layer as the shielding portion shielding the sensor light. and the identification portion may have an exposed surface exposed from the shielding layer.
- the card main body of the division card of the first or second aspect extends in the first direction taken into the paper sheet processing apparatus and is back-to-back.
- a first edge and a second edge may be provided, wherein the identification portion is provided between the first edge and the second edge.
- the take-in sensor is arranged at any position between the first end edge portion and the second end edge portion extending in the first direction.
- the identification information can be read from the identification section. Therefore, the degree of freedom for arranging the capture sensor can be improved.
- the card main body of the division card of the fourth aspect has third edges extending in a second direction perpendicular to the first direction and facing each other back to back. and a fourth edge portion are provided, and the identification portion is located near the third edge portion and extends from the first edge portion to an intermediate portion of the card body portion in the second direction.
- a first identification portion extending along three edges, and a second identification located near the fourth edge and extending along the fourth edge from the second edge to the intermediate portion. and may be provided.
- the identification portion is provided from the first edge portion to the second edge portion by the first identification portion and the second identification portion, and the identification portion is provided from the first edge portion to the second edge portion.
- the The identification information can be read. Therefore, it is possible to improve the degree of freedom in arranging the intake sensor and the degree of freedom in arranging the identification section with respect to the card main body.
- the durability of the division card is increased and it becomes possible to use it repeatedly for a long time.
- FIG. 1 is a schematic configuration diagram showing an example of a paper sheet processing apparatus using a division card according to an embodiment of the present invention
- FIG. FIG. 2 is a perspective view showing paper sheets to be processed by the paper sheet processing apparatus shown in FIG. 1;
- FIG. 2 is a plan view showing a reception unit of the paper sheet processing apparatus shown in FIG. 1 and a division card according to one embodiment of the present invention; It is a top view showing a division card of one embodiment of the present invention.
- FIG. 5 is a cross-sectional view taken along line VV of FIG. 4;
- FIG. 10 is a plan view showing a division card of Modification 1 in one embodiment of the present invention;
- FIG. 10 is a plan view showing a division card of modification 2 in one embodiment of the present invention;
- FIG. 11 is a plan view showing a division card of Modification 3 in the embodiment of the present invention;
- FIG. 1 is a diagram showing a schematic configuration of a paper sheet processing apparatus that performs processing using a division card according to one embodiment of the present invention.
- This paper sheet processing apparatus counts and sorts paper sheets such as bills, securities, and cash vouchers.
- the paper sheet processing apparatus 1 classifies the input paper sheets S into count target paper sheets that are to be counted and reject paper sheets that are not to be counted, and further counts the count target paper sheets by type. and store them by type, and display the counting result and the storage destination in association with each other.
- the left-right direction in FIG. 1 is the left-right direction viewed from an operator who operates the paper sheet processing apparatus 1 .
- the paper sheet processing apparatus 1 is configured by combining a counting unit 2 and a stacking unit 3.
- the counting unit 2 identifies and counts the sheets S.
- the stacking unit 3 sorts, stacks, and stores the paper sheets S identified and counted by the counting unit 2 and conveyed from the counting unit 2 . For example, when the paper sheets S are bills, the stacking unit 3 stacks the paper sheets S sorted by denomination by a predetermined number of sheets.
- the paper sheet processing apparatus 1 can be configured by connecting a desired number of stacking units 3 to one counting unit 2 . In this embodiment, a case in which one stacking unit 3 is connected to one counting unit 2 will be described as an example.
- the counting unit 2 includes a reception section 11 and a rejection section 13.
- the reception section 11 is provided at the bottom of the counting unit 2 and always open to the outside.
- the reception unit 11 receives paper sheets S input from the outside in the paper sheet processing apparatus 1 .
- a plurality of paper sheets S are vertically stacked with their short sides along the left and right (the left and right direction is shown in the lower part of FIG. 1) and their long sides along the front and back. set in the state of The reception unit 11 separates and feeds out the stacked paper sheets S set in this manner one by one from the lowest one, and takes them into the paper sheet processing apparatus 1 .
- the paper sheet S fed out from the reception unit 11 moves in the direction in which its short side extends.
- the accepting unit 11 is provided with a take-in sensor 15 that detects at least whether the paper sheet S is taken in or not.
- the counting unit 2 has an intra-counting unit transport section 21 and an identification counting section 22 therein.
- the intra-counting-unit transport section 21 transports the paper sheets S that have been put into the reception section 11 and fed out from the reception section 11 .
- the identifying and counting section 22 identifies and counts the paper sheets S being conveyed by the intra-counting unit conveying section 21 .
- the intra-counting unit transport section 21 has a main transport path 31 and a branch transport path 32 .
- the main transport path 31 extends from the receiving portion 11 toward the left side of the counting unit 2, then extends upward, further extends toward the left side of the counting unit 2, and opens on the left side.
- the branch transport path 32 branches off from the top of the main transport path 31 , extends toward the right side of the counting unit 2 , and connects to the reject section 13 .
- the identification counting section 22 is provided closer to the reception section 11 than the branch position of the branch conveying path 32 in the main conveying path 31 .
- the intra-stacking-unit transport section 41 is connected to the main transport path 31 of the counting unit 2 and transports the paper sheets S drawn out from the main transport path 31 .
- the intra-stacking unit transport section 41 has a connecting transport path 42 and a branch transport path 43 .
- the connecting transport path 42 opens at the upper right side surface of the stacking unit 3, extends horizontally and linearly toward the left side surface of the stacking unit 3, and opens at the upper left side surface.
- the branch conveying path 43 branches downward from the middle portion on the left side of the connecting conveying path 42 .
- the branch transport path 43 of the stacking unit 3 has a downwardly extending portion 44 and a plurality of laterally extending portions 45, 46, 47, and 48.
- the downward extending portion 44 branches off from the middle portion on the left side of the connecting transport path 42 and extends vertically downward.
- the side extending portions 45 , 46 , 47 , 48 extend from the downward extending portion 44 toward the right side surface of the stacking unit 3 .
- the side extending portions 45, 46, 47, and 48 respectively include a first stacking portion 51, a second stacking portion 52, a third stacking portion 53, and a fourth stacking portion 54 for stacking and storing the paper sheets S. is connected.
- the uppermost first stacking portion 51 is connected to the uppermost side extending portion 45 .
- the second stacking portion 52 second from the top is connected to the side extending portion 46 second from the top.
- the third stacking portion 53 which is the third from the top, is connected to the side extending portion 47 which is the third from the top.
- the lowermost fourth stacking portion 54 is connected to the lowermost laterally extending portion 48 .
- the first to fourth stacking units 51, 52, 53, and 54 store the paper sheets S identified as storage targets among the paper sheets S identified and counted by the identification counting unit 22. For example, when the stacking unit 3 stacks a predetermined number of banknotes sorted by denomination, the denominations to be stored in the first to fourth stacking units 51, 52, 53, and 54 are The first to fourth stacking units 51, 52, 53, and 54, which are set in advance, accommodate banknotes of set target denominations. Each of the first to fourth stacking portions 51 , 52 , 53 , and 54 has a pocket shape that is always open to the outside on the front surface of the stacking unit 3 .
- a retraction pocket 55 capable of accommodating paper sheets S is provided at the end of the connecting transport path 42 opposite to the counting unit 2 .
- the evacuation pocket 55 accommodates the overflowed paper sheets S when any one of the first to fourth stacking units 51 to 54 is full.
- the intra-counting-unit transport section 21 and the intra-stacking-unit transport section 41 connected to each other form an intra-apparatus transport section 58 that transports the paper sheets S delivered from the receiving section 11 to each section within the paper sheet processing apparatus 1.
- the sheet S is identified by the intake sensor 15 and the identification counting section 22 while being conveyed by the intra-apparatus conveying section 58 .
- the intra-apparatus conveying section 58 transfers the paper sheet S to the reject section 13, the first to fourth stacking sections, based on the identification results of the intake sensor 15 and the identifying and counting section 22. 51 to 54 and one of the evacuation pockets 55.
- the reject part 13 is always open to the outside at the top of the counting unit 2 .
- the rejecting unit 13 receives paper sheets S that have been taken into the paper sheet processing apparatus 1 by the receiving unit 11, and is identified by the identification counting unit 22 as rejected paper sheets other than the paper sheets to be counted. Sheets S are accumulated and stored outside the paper sheet processing apparatus 1 so as to be removable.
- an operation display unit 23 On the front surface of the counting unit 2 of the paper sheet processing apparatus 1, there are an operation display unit 23 for receiving operation input from the operator and for displaying information on the screen for the operator, and for outputting information by voice to the operator.
- a voice output unit 24 is provided to perform the processing.
- a control section 25 for controlling the counting unit 2 and the accumulation unit 3, and a storage section 26 for storing control programs and various parameters.
- the control unit 25 controls the entire paper sheet processing apparatus 1 .
- the identification counting unit 22 detects the image data of both sides of the sheet S. Further, the identification counting unit 22 compares each of the image data on both sides of the paper sheet S with the reference data, and identifies the type of the reference data determined to match as the type of the paper sheet S from which the image data is detected. do.
- FIG. 2 is a perspective view showing paper sheets processed by the paper sheet processing apparatus.
- the paper sheets are divided into a plurality of sections in which a plurality of paper sheets S(a) to be processed, which are to be identified and counted, are continuously accumulated in the thickness direction and grouped together. Includes Part B(a).
- the paper sheet processing apparatus 1 can perform batch processing in which a plurality of sorted portions B(a) of paper sheets are continuously processed.
- division cards S(b) for judging the boundary of each division portion B(a) are arranged at the head position of each division portion B(a) in paper sheets.
- the division card S(b) as the paper sheet S is arranged at the head position of each division part B(a) in order to divide each division part B(a).
- FIG. 3 is a plan view showing the receiving section of the paper sheet processing apparatus and the division card of the embodiment of the present invention.
- the reception section 11 includes a bottom section 60 and wall sections 61 , 62 and 63 .
- the bottom portion 60 is inclined slightly downward to the left with respect to the horizontal.
- the wall portion 61 extends perpendicularly to the bottom portion 60 from the left edge of the bottom portion 60 .
- the wall portion 62 extends perpendicularly to the bottom portion 60 from one edge portion of the bottom portion 60 in the width direction Dw.
- the wall portion 63 extends perpendicularly to the bottom portion 60 from the other edge portion of the bottom portion 60 in the width direction Dw.
- the wall portion 62 and the wall portion 63 are arranged parallel to each other, and the wall portion 61 is arranged perpendicular thereto.
- a group of paper sheets G which is grouped by the classification part B(a) of the paper sheets S(a) to be processed and the corresponding one division card S(b), A plurality of them are stacked and arranged on the bottom portion 60 between the wall portions 62 and 63 .
- the plurality of stacked paper sheet groups G are placed so as to contact at least the wall portion 61 .
- the take-in sensor 15 detects the take-in of the sheet group G from the reception unit 11 .
- the take-in sensor 15 is located downstream of the receiving unit 11 in the transport direction perpendicular to the width direction Dw of the receiving unit 11 . It is provided at a position through which the class S passes.
- the take-in sensor 15 is arranged at a position displaced by a predetermined distance in the width direction Dw from the central portion of the receiving portion 11 in the width direction Dw.
- the intake sensor 15 is arranged at a predetermined distance toward the wall portion 63 in the width direction Dw from the central portion of the reception portion 11 in the width direction Dw.
- the take-in sensor 15 is a so-called transmissive sensor having a light-emitting element and a light-receiving element arranged so that the paper sheets S taken in from the reception unit 11 pass therebetween.
- the take-in sensor 15 detects that there is no paper sheet S at the position of the take-in sensor 15 when the light-receiving element is receiving the sensor light emitted from the light-emitting element. When the sensor light is not received by the light-receiving element, it is detected that there is a paper sheet S at the position of the take-in sensor 15 .
- the take-in sensor 15 is provided at a position capable of detecting the division card S(b) and the paper sheets S(a) to be processed of all denominations which are placed between the walls 62 and 63 and taken in.
- FIG. 4 is a plan view showing a division card according to an embodiment of the invention.
- 5 is a cross-sectional view taken along line VV of FIG. 4.
- FIG. 4 the division card S(b) is formed in a rectangular sheet shape when viewed from above.
- the division card S(b) has a length in the longitudinal direction equal to the length of the longest one among the paper sheets S(a) to be processed and slightly shorter than the length between the walls 62 and 63. formed. In other words, the division card S(b) has a length equal to or slightly longer than that of the target paper sheets S(a).
- the division card S(b) in this embodiment is set in the reception section 11 with its long side along the wall 61 and its short side along the walls 62 and 63 . Also, the division card S(b) is set in the receiving section 11 so as to abut on the wall portion 61 and the wall portion 63 .
- the reception unit 11 conveys the division card S(b) and the processing target paper sheet S(a), both of which are paper sheets S, toward the wall portion 61 side in the width direction of each, and processes the paper sheets. Take it inside the device 1 . Then, the intra-counting-unit transport section 21 also transports the division card S(b) and the processing target paper sheet S(a), which are the paper sheets S, in the lateral direction.
- the division card S(b) has a card body 80 made of a synthetic resin sheet and having an identification part 81 .
- the card main body 80 in this embodiment is formed in a rectangular sheet shape in plan view.
- the card body 80 of this embodiment comprises a first edge 82 , a second edge 83 , a third edge 84 and a fourth edge 85 .
- the division card S(b) has a first surface 86 facing the first side in the thickness direction Dt and a second surface 87 facing the second side in the thickness direction Dt. is doing.
- the first edge portion 82 and the second edge portion 83 extend in the first direction Da.
- the first direction Da in this embodiment is the direction in which the sheet is taken into the sheet processing apparatus 1 described above (in other words, the transport direction).
- the first edge portion 82 and the second edge portion 83 are formed so as to be back-to-back in the second direction Db perpendicular to the first direction Da.
- the first end edge portion 82 and the second end edge portion 83 in this embodiment are formed in a linear shape forming a short side of the above-described sheet-like rectangular sheet in plan view.
- the third edge portion 84 and the fourth edge portion 85 extend in the second direction Db.
- the third edge portion 84 and the fourth edge portion 85 are formed so as to be back-to-back in the first direction Da.
- the third end edge portion 84 and the fourth end edge portion 85 in this embodiment are formed in a linear shape forming the long side of the above-described rectangular sheet-like sheet in plan view.
- the card body portion 80 includes a shield portion 88 and the identification portion 81 described above.
- the shielding part 88 shields the sensor light of the take-in sensor 15 without transmitting it.
- the identification portion 81 contains identification information readable by the capture sensor 15 .
- the card body 80 exemplified in this embodiment has a synthetic resin layer 91 , a shielding layer 92 and an exposed surface 93 .
- the synthetic resin layer 91 is formed so as to transmit sensor light.
- the synthetic resin layer 91 of this embodiment is made of transparent synthetic resin.
- the shielding layer 92 is formed, for example, by coloring at least one of the first surface 86 side and the second surface 87 side of the synthetic resin layer 91.
- the shielding layer 92 can shield sensor light. It is configured. More specifically, when the shielding layer 92 is positioned between the light emitting element and the light receiving element of the take-in sensor 15, the light receiving element cannot detect the sensor light. That is, the portion of the first surface 86 and the second surface 87 where the shielding layer 92 is formed is the shielding portion 88 described above.
- the identification section 81 contains identification information that can be read by the capture sensor 15 .
- the identification portion 81 in this embodiment contains information indicating that it is a division card S(b).
- the identification section 81 is configured to allow sensor light to pass therethrough. More specifically, the identification portion 81 of this embodiment is composed of an exposed surface 93 that is not covered with the shielding layer 92 and exposes the synthetic resin layer 91 .
- the identifying portion 81 can also be said to be a non-colored portion that is not colored.
- the exposed surfaces 93 are formed on both the first surface 86 side and the second surface 87 side so as to be arranged symmetrically with the synthetic resin layer 91 interposed therebetween.
- the synthetic resin layer 91 can transmit the sensor light, the sensor light does not pass through the identification section 81 when the identification section 81 is arranged between the light emitting element and the light receiving element of the take-in sensor 15 . is detected by the light receiving element. In other words, the presence or absence of the identification portion 81 is detected by the intake sensor 15 .
- the controller 25 determines that the taken-in card is the division card S(b). In this way, the identification section 81 contains information indicating that it is the division card S(b).
- the identification portion 81 of this embodiment is provided between the first edge portion 82 and the second edge portion 83 .
- the identification portion 81 is formed at any position in the first direction Da on the card body portion 80 .
- the card body portion 80 in this embodiment has, as the identification portion 81, a first identification portion 81A and a second identification portion 81B.
- the first identification portion 81A is located on the side of the card body portion 80 near the third edge portion 84
- the second identification portion 81B is located on the side of the card body portion 80 near the fourth edge portion 85.
- the first identification portion 81A extends along the third edge portion 84 from the first edge portion 82 to the intermediate portion of the card main body portion 80 in the second direction Db (the position indicated by the dashed line in FIG. 4).
- the second identification portion 81B extends along the fourth edge portion 85 from the second edge portion 83 to an intermediate portion in the second direction Db.
- the intermediate portion in this embodiment means a position where the distance from the first edge portion 82 and the distance from the second edge portion 83 are equal in the second direction Db.
- the identification portion 81 in this embodiment includes the first identification portion 81A and the second identification portion 81B, so that although the identification portion 81 is divided in the first direction Da, the first edge portion It is provided over the entire area between 82 and the second edge portion 83 .
- the identification portion 81 and the second identification portion 81B are formed linearly with the same thickness in the first direction Da.
- the first identification portion 81A in this embodiment has two linear portions 94 spaced apart in the first direction Da.
- the second identifying portion 81B has two linear portions 94 spaced apart in the first direction Da.
- a card unique number is assigned to a division card S(b) on a one-to-one basis. Card S(b) is set not to exist.
- two two-dimensional codes 95 are printed on each of the shielding portions 88 on the first surface 86 and the second surface 87 .
- the two two-dimensional codes 95 on the first surface 86 are positioned closer to the first edge 82 than the center in the second direction Db and closer to the fourth edge 85 in the first direction Da. , and a position closer to the second edge portion 83 than the central portion in the second direction Db and closer to the third edge portion 84 in the first direction Da.
- a first text display 96 which is a text display of the card's unique number
- a second text display 97 which is a text display of the card's unique number
- a two-dimensional code 95 and a first text display 96 and a second text display 97 are printed on the shielding portion 88 of the second surface 87 as well.
- the identification portion 81 is also present on the second surface 87 .
- the bar code 90 on the first surface 86 and the two-dimensional code 95 on the second surface 87 are the same code. Furthermore, the card unique number that can be obtained from these two-dimensional codes 95, the card unique number of the first text display 96 on the first surface 86, the card unique number of the second text display 97 on the first surface 86, and the second The card unique number of the first text display 96 on the surface 87 and the card unique number of the second text display 97 on the second surface 87 are the same.
- the paper sheet processing apparatus 1 As shown in FIG. A plurality of paper sheet groups G grouped together by and are stacked and set in the reception unit 11 . At that time, the division card S(b) in each sheet group G is set so as to be positioned at the lower end. Then, when a batch processing start operation is input to the operation display unit 23, the control unit 25 causes the receiving unit 11 to insert the paper sheets S one by one from the lower end of the paper sheet group G into the paper sheet processing apparatus 1. It is to be taken in and transported by the intra-apparatus transport section 58 .
- the control unit 25 selects the division card S(b) and the paper sheets to be processed S(a) other than the normal paper sheets.
- the rejected paper sheets identified as are accumulated in the reject unit 13 .
- the control unit 25 selects the paper sheets to be counted that are identified as normal paper sheets among the paper sheets S(a) to be processed, While counting, they are classified and accumulated in the first to fourth accumulation units 51 to 54 . In this manner, the paper sheet processing apparatus 1 counts and classifies the paper sheets S. As shown in FIG.
- the card main body 80 having the identification portion 81 containing the identification information readable by the take-in sensor 15 is formed of a synthetic resin sheet. Therefore, the division card S(b) is less likely to be bent or torn than the card body 80 made of paper. Therefore, the division card S(b) has improved durability and can be used repeatedly for a long period of time.
- a transmissive sensor that reads identification information using sensor light can be used as the take-in sensor 15 .
- the card body portion 80 of the division card S(b) includes a shielding portion 88 that shields the sensor light without transmitting it, and an identification portion 81 that transmits the sensor light. Therefore, the paper sheet processing apparatus 1 can read the identification information of the identification section 81 by detecting the sensor light transmitted through the identification section 81 by the take-in sensor 15 . Therefore, since there is no need to form a through hole or the like in the identification portion 81, the durability of the card body portion 80 can be enhanced.
- the card main body 80 includes the synthetic resin layer 91 capable of transmitting the sensor light, and the shielding layer 92 as the shielding section 88 that shields the sensor light.
- the identifying portion 81 has an exposed surface 93 exposed without being covered with the shielding layer 92 . Therefore, by shielding the portion of the card main body 80 that is not the identification portion 81 with the shielding layer 92, the shielding portion 88 and the identification portion 81 can be easily formed.
- the card main body 80 has a first edge portion 82 and a second edge portion which extend in the first direction Da and are arranged back-to-back with each other.
- the identification portion 81 is provided between the first edge portion 82 and the second edge portion 83 . Therefore, the identification information can be read from the identification portion 81 regardless of whether the intake sensor 15 is arranged at the first edge portion 82 or the second edge portion 83 extending in the first direction Da. . Therefore, the degree of freedom in arranging the intake sensor 15 can be improved.
- the identification portion 81 when the identification portion 81 is formed by a through hole, if the identification portion 81 is formed to a position reaching the first end edge portion 82 or the second end edge portion 83, the first end adjacent to the through hole Since the edge portion 82 and the second edge portion 83 can move freely in the thickness direction Dt of the card main body portion 80, there is a possibility that a jam may occur due to being caught on a step or the like during transportation.
- the division card S(b) of the above embodiment since it is not necessary to provide a through hole, even if the identification portion 81 is formed even at the positions of the first edge portion 82 and the second edge portion 83, It does not cause jams as described above. As a result, it is possible to further improve the degree of freedom in arranging the intake sensor 15 .
- the card body portion 80 extends in the second direction Db orthogonal to the first direction Da, and is provided so as to be back-to-back.
- a portion 84 and a fourth edge portion 85 are provided.
- the card body portion 80 has a first identification portion 81A located on the side closer to the third edge portion 84 of the card body portion 80 and a second identification portion 81B located on the side closer to the fourth edge portion 85. and have.
- the first identification portion 81A extends along the third edge portion 84 from the first edge portion 82 to the intermediate portion of the card main body portion 80 in the second direction Db. It extends along the fourth edge 85 from the second edge 83 to the intermediate portion.
- the identification portion 81 is provided from the first edge portion 82 to the second edge portion 83 by the first identification portion 81A and the second identification portion 81B, and the identification portion 81 extends from the first edge portion 82 to the second edge portion 83. It can be divided and formed between the two end edges 83 . Therefore, compared to the case where the identification portion 81 is not divided between the first end edge portion 82 and the second end edge portion 83, the area of the shield portion 88 is increased to The degree of freedom in arranging the dimension code 95 can be improved. Further, the identification information can be read from the identification portion 81 regardless of whether the intake sensor 15 is arranged at the first end edge portion 82 or the second end edge portion 83 extending in the first direction Da. Therefore, the degree of freedom of arrangement of the intake sensor 15 can be improved.
- FIG. 6 is a plan view of Modification 1 of the division card of the embodiment of the present invention.
- the case where the first direction Da in which the first edge portion 82 and the second edge portion 83, which are the short sides of the division card S(b) extend, is set as the conveying direction has been described.
- the division card S(b) may be conveyed in the second direction Db in which the third edge 84 and the fourth edge 85, which are long sides, extend. .
- one identification portion 81 (first identification portion 81A) is provided on the side closer to the first edge portion 82 in the second direction Db, and One identification portion 81 (second identification portion 81B) is also provided on the side closer to the second edge portion 83, and these identification portions 81 are arranged from the third edge portion 84 in the first direction Da orthogonal to the conveying direction to the third edge portion 84. It may be formed over the four edge portions 85 .
- Modification 1 it is possible to use the division card S(b) even in a paper sheet handling apparatus whose conveying direction is the long side direction of the paper sheet.
- FIG. 7 is a plan view of Modification 2 of the division card of the embodiment of the present invention.
- the identification portion 81 extends in the first direction Da or extends in the second direction Db has been described.
- the identification portion 81 extends in the first direction Da or extends in the second direction Db has been described.
- the identification portion 81 extends in the first direction Da or extends in the second direction Db has been described.
- the identification portion 81 extends in the first direction Da or extends in the second direction Db.
- they are provided on the side of the third edge portion 84 in the first direction Da and from the first edge portion 82 in the second direction Db.
- an identification portion 81 extending to the central portion; an identification portion 81 provided on the fourth edge portion 85 side in the first direction Da and extending from the second edge portion 83 to the central portion in the second direction Db; Identification portion 81 provided on the first edge portion 82 side of and extending in the first direction Da from the third edge portion 84 to the central portion in the first direction Da (indicated by a dashed-dotted line extending in the left-right direction in FIG. 7) and an identification portion 81 provided on the second edge portion 83 side in the second direction Db and extending in the first direction Da from the fourth edge portion 85 to the central portion in the first direction Da. good too.
- both the paper sheet processing apparatus 1 in which the conveying direction is the short side direction of the paper sheet S and the paper sheet processing apparatus 1 in which the long side direction of the paper sheet S is the conveying direction , the division card S(b) can also be used.
- FIG. 8 is a plan view of Modification 3 of the division card of the embodiment of the present invention.
- the first identification portion 81A is formed from the first edge portion 82 to the central portion
- the second identification portion 81B is formed from the second edge portion 83 to the central portion
- the identification portion 81 is formed from the second edge portion 83 to the central portion.
- Db the case where it is provided by being divided in two directions Db has been described.
- Modification 3 shown in FIG. It may be formed so as to extend from the second edge portion 83 to the first edge portion 82 . By doing so, since both the first identification portion 81A and the second identification portion 81B can be detected by one capturing sensor 15, redundancy can be provided.
- the first identification portion 81A is formed from the first edge portion 82 to the central portion
- the second identification portion 81B is formed from the second edge portion 83 to the central portion
- the identification portion 81 is formed from the second edge portion 83 to the central portion.
- the case where it is provided by being divided in two directions Db has been described.
- These first identification portion 81A and second identification portion 81B may be separated at specific positions other than the central portion.
- the first identification portion 81A is provided from the first edge portion 82 to the first specific position
- the second identification portion 81B is provided from the second specific position different from the first specific position to the second edge portion 83.
- the division card S(b) has the transparent synthetic resin layer 91 .
- This synthetic resin layer is not limited to being transparent as long as it can transmit the sensor light.
- the identification portion 81 of the division card S(b) has been described as the exposed surface 93 that does not penetrate in the thickness direction Dt, but the identification portion 81 penetrates in the thickness direction Dt. You may do so.
- the identification portion 81 is not limited to a linear shape, and may be, for example, a circular shape, an elongated hole shape, a polygonal shape, or the like. Further, the identification portion 81 may be a circular, elongated, polygonal, or other through hole.
- first identification portion 81A and the second identification portion 81B each have two linear portions 94 has been described.
- the first identification portion 81A and the second identification portion 81B may each have one linear portion 94 .
- the present invention provides a division card that can be applied to a division card used in a paper sheet processing apparatus, has increased durability, and can be used repeatedly for a long period of time.
Abstract
Description
本願は、2021年4月19日に、日本に出願された特願2021-70224号に基づき優先権を主張し、その内容をここに援用する。
この特許文献1に記載されたディビジョンカードにおいては、カード厚さ方向に貫通した識別孔群がカード本体部に形成されている。特許文献1の紙葉類処理装置では、ディビジョンカードの識別孔群を通過したセンサ光の検出パターンに基づいてディビジョンカードを検出するとともに、処理対象紙葉類群を判定している。
本発明は、上記事情に鑑みてなされたものであり、耐久性を高めて、長時間の繰り返し使用が可能なディビジョンカードを提供することを目的としている。
本発明の第一態様のディビジョンカードは、紙葉類を処理する紙葉類処理装置の投入口から取り込み可能とされ、少なくとも一枚の処理対象紙葉類と重ねて配置されて前記処理対象紙葉類と共に紙葉類群を構成し、前記紙葉類処理装置の取込センサによって前記紙葉類群の識別情報を読み取らせることが可能なディビジョンカードであって、前記識別情報を含む識別部を有し、合成樹脂シートにより形成されたカード本体部を備える。
このように構成することで、第一態様によるディビジョンカードにおいては、紙製のカード本体部を有するディビジョンカードに比較して、折れ曲がったり破れたりすることを抑制できる。したがって、第一態様によるディビジョンカードは、耐久性が高く、長時間の繰り返し使用が可能になる。
このように構成することで、前記紙葉類処理装置は、第二態様によるディビジョンカードに対して、前記取込センサによって前記識別部にて透過したセンサ光を検出する。これによって、前記紙葉類処理装置は、前記識別部の前記識別情報、例えば、その紙葉がディビジョンカードであること等の情報を読み取ることができる。したがって、第二態様によるディビジョンカードにおいては、前記識別部に貫通孔等を形成する必要が無いため、前記カード本体部の耐久性を高めることができる。
このように構成することで、第三態様のディビジョンカードにおいては、前記カード本体部のうち前記識別部ではない部分を前記遮蔽層で遮蔽するだけでよいため、容易に前記遮蔽部及び前記識別部を形成することが可能となる。
このように構成することで、第四態様のディビジョンカードにおいては、前記取込センサの配置を、第一方向に延びる第一端縁部と第二端縁部との間の何れの位置に配置しても前記識別部から前記識別情報を読み取ることができる。したがって、前記取込センサを配置するための自由度を向上することができる。
このように構成することで、第五態様のディビジョンカードにおいては、第一識別部と第二識別部とによって識別部を第一端縁部から第二端縁部間にわたって設けつつ、識別部を第一端縁部から第二端縁部の間で分断して形成することができる。そのため、第五態様のディビジョンカードにおいては、前記取込センサの配置を、第一方向に延びる第一端縁部と第二端縁部との何れの位置に配置しても前記識別部から前記識別情報を読み取ることができる。したがって、前記取込センサを配置するための自由度を向上しつつ、前記カード本体部に対して前記識別部を配置するための自由度を向上することができる。
《紙葉類処理装置の構成》
図1は、本発明の一実施形態のディビジョンカードを用いた処理を行う紙葉類処理装置の概略構成を示す図である。
この紙葉類処理装置は、紙葉類として紙幣や証券、金券等の紙葉類を計数しつつ分類処理する装置である。紙葉類処理装置1は、投入された紙葉類Sを、計数対象である計数対象紙葉類と計数対象ではないリジェクト紙葉類とに分類し、計数対象紙葉類を更に種類別に計数して種類別に収容し、計数結果と収容先とを関連付けて表示する。なお、図1における左右方向は、紙葉類処理装置1を操作する操作員から見た左右方向である。
装置内搬送部58の搬送中に、紙葉類Sは取込センサ15及び識別計数部22で識別される。装置内搬送部58は、識別計数部22よりも下流側において、取込センサ15及び識別計数部22の識別結果に基づいて、紙葉類Sを、リジェクト部13、第一から第四集積部51~54及び退避ポケット55のうちの一つに振り分ける。
図2に示すように、紙葉類は、識別及び計数を行う処理対象である複数枚の処理対象紙葉類S(a)を厚さ方向に連続的に集積して一纏めにした複数の区分部B(a)を含む。紙葉類処理装置1は、紙葉類の複数の区分部B(a)を連続して処理するバッチ処理を行うことが可能である。このバッチ処理を行うために、紙葉類においては、各区分部B(a)の境界を判断するためのディビジョンカードS(b)が各区分部B(a)の先頭位置に配置される。言い換えれば各区分部B(a)を区分けするために、紙葉類SとしてのディビジョンカードS(b)が各区分部B(a)の先頭位置に配置される。
図3に示すように、受付部11は、底部60と、壁部61,62,63とを備えている。底部60は、水平に対して若干左下がりに傾斜している。壁部61は、底部60の左側縁部から底部60に対して垂直に延びている。壁部62は、底部60の幅方向Dwの一端縁部から底部60に対して垂直に延びている。壁部63は、底部60の幅方向Dwの他端縁部から底部60に対して垂直に延びている。壁部62と壁部63とは平行に配置されており、これらに対して壁部61は垂直に配置されている。このような受付部11においては、処理対象紙葉類S(a)の区分部B(a)と対応する一枚のディビジョンカードS(b)とで一纏まりとされた紙葉類群Gが、複数重ねられて、壁部62,63間の底部60上に配置される。そして、これら複数重ねられた紙葉類群Gは、少なくとも壁部61に当接するように載置される。
図4は、本発明の実施形態のディビジョンカードを示す平面図である。図5は、図4のV-V線に沿う断面図である。
図3から図5に示すように、ディビジョンカードS(b)は、平面視長方形状のシート状に形成されている。ディビジョンカードS(b)は、その長手方向の長さが、処理対象紙葉類S(a)のうち最も長さが長いものの長さと同等で、壁部62および63間の長さより僅かに短く形成されている。つまり、ディビジョンカードS(b)は、処理対象紙葉類S(a)と同等の長さ又は僅かに長い長さを有している。
遮蔽層92は、例えば、合成樹脂層91の第一面86側と第二面87側との少なくとも一方を着色等することで形成されている、この遮蔽層92は、センサ光を遮蔽可能に構成されている。より具体的には、取込センサ15の発光素子と受光部素子との間に遮蔽層92が位置する場合には、受光素子でセンサ光を検出することが不能となっている。つまり、第一面86と第二面87とのうち、遮蔽層92が形成されている箇所が上述した遮蔽部88となっている。
紙葉類処理装置1は、バッチ処理の際には、図2に示すように、処理対象紙葉類S(a)の区分部B(a)と対応する一枚のディビジョンカードS(b)とで一纏まりとされた紙葉類群Gが、複数重ねられて、受付部11にセットされる。その際に、各紙葉類群GにおいてディビジョンカードS(b)が下端に位置するようにセットされる。そして、操作表示部23にバッチ処理のスタート操作が入力されると、制御部25は、受付部11によって紙葉類群Gの下端から一枚ずつ紙葉類Sを紙葉類処理装置1内に取り込ませることになり、装置内搬送部58によって搬送する。その際に、制御部25は、取込センサ15及び識別計数部22の識別結果に基づいて、ディビジョンカードS(b)と、処理対象紙葉類S(a)のうち、正常紙葉類以外と識別されたリジェクト紙葉類をリジェクト部13に集積させる。また、制御部25は、取込センサ15及び識別計数部22の識別結果に基づいて、処理対象紙葉類S(a)のうち、正常紙葉類と識別された計数対象紙葉類を、計数しつつ第一から第四集積部51~54に分類して集積させる。このようにして、紙葉類処理装置1は、紙葉類Sを計数しつつ分類する。
以上に述べた実施形態のディビジョンカードS(b)によれば、取込センサ15によって読み取り可能な識別情報を含む識別部81を有したカード本体部80が合成樹脂シートにより形成されている。したがって、紙製のカード本体部80に比べて、ディビジョンカードS(b)が折れ曲がったり破れたりすることを抑制できる。したがって、ディビジョンカードS(b)は、耐久性を高めて、長時間の繰り返し使用が可能になる。
また、例えば、識別部81を貫通孔で形成した場合には、第一端縁部82や第二端縁部83に至る位置にまで識別部81を形成すると、貫通孔に隣接する第一端縁部82及び第二端縁部83がカード本体部80の厚さ方向Dtに自由に動ける状態となるため、搬送中に段差等に引っ掛かる等してジャムの発生する可能性が有る。これに対し、上記実施形態のディビジョンカードS(b)では、貫通孔を設ける必要が無いため、第一端縁部82や第二端縁部83の位置にまで識別部81を形成しても上記のようなジャムの発生原因とはならない。その結果、取込センサ15の配置の自由度を更に向上することが可能となる。
図6は、本発明の実施形態のディビジョンカードにおける変形例1の平面図である。
上記実施形態においては、ディビジョンカードS(b)の短辺である第一端縁部82及び第二端縁部83の延びる第一方向Daを搬送方向とする場合について説明した。しかし、図6に示す変形例1のように、ディビジョンカードS(b)は、長辺である第三端縁部84及び第四端縁部85の延びる第二方向Dbを搬送方向としてもよい。このように第二方向Dbを搬送方向とする場合、第二方向Dbの第一端縁部82に近い側に識別部81(第一識別部81A)を一つ設けるとともに、第二方向Dbの第二端縁部83に近い側にも識別部81(第二識別部81B)を一つ設け、これら識別部81を、搬送方向と直交する第一方向Daの第三端縁部84から第四端縁部85にわたって形成するようにしてもよい。この変形例1によれば、紙葉類の長辺方向を搬送方向とする紙葉類処理装置でもディビジョンカードS(b)を使用することが可能となる。
図7は、本発明の実施形態のディビジョンカードにおける変形例2の平面図である。 上記実施形態及び変形例1においては、識別部81が、第一方向Daに延びるか、第二方向Dbに延びる場合について説明した。しかし、図7に示す変形例2のように、例えば、複数の識別部81として、第一方向Daの第三端縁部84側に設けられて第二方向Dbで第一端縁部82から中央部まで延びる識別部81と、第一方向Daの第四端縁部85側に設けられて第二方向Dbで第二端縁部83から中央部まで延びる識別部81と、第二方向Dbの第一端縁部82側に設けられて第一方向Daで第三端縁部84から第一方向Daの中央部(図7中、左右方向に延びる一点鎖線で示す)まで延びる識別部81と、第二方向Dbの第二端縁部83側に設けられて第一方向Daで第四端縁部85から第一方向Daの中央部まで延びる識別部81と、をそれぞれ設けるようにしてもよい。この変形例2によれば、紙葉類Sの短辺方向を搬送方向とする紙葉類処理装置1と紙葉類Sの長辺方向を搬送方向とする紙葉類処理装置1との両方で、ディビジョンカードS(b)を兼用することが可能となる。
図8は、本発明の実施形態のディビジョンカードにおける変形例3の平面図である。 上記実施形態においては、第一識別部81Aを第一端縁部82から中央部まで形成し、第二識別部81Bを第二端縁部83から中央部まで形成して、識別部81を第二方向Dbで分断して設ける場合について説明した。しかし、図8に示す変形例3のように、例えば、第一識別部81Aを、第一端縁部82から第二端縁部83に至るように形成し、第二識別部81Bを、第二端縁部83から第一端縁部82に至るように形成してもよい。このようにすることで、一つの取込センサ15によって第一識別部81Aと第二識別部81Bとを両方とも検出できるため、冗長性を持たせることが可能となる。
上記実施形態においては、第一識別部81Aを第一端縁部82から中央部まで形成し、第二識別部81Bを第二端縁部83から中央部まで形成して、識別部81を第二方向Dbで分断して設ける場合について説明した。これらの第一識別部81A及び第二識別部81Bは、それぞれ中央部以外の特定位置で分断するようにしても良い。更に、第一識別部81Aを第一端縁部82から第一特定位置まで設け、第二識別部81Bを第一特定位置とは異なる第二特定位置から第二端縁部83まで設けるようにしても良い。
以上、図面を参照して一実施形態について詳しく説明してきたが、具体的な構成は上述のものに限られることはなく、様々な設計変更等をすることが可能である。
例えば、上記実施形態では、ディビジョンカードS(b)が透明な合成樹脂層91を備える場合について説明した。この合成樹脂層は、センサ光を透過可能であれば良く、透明に限られるものでは無い。
2 計数ユニット
3 集積ユニット
11 受付部
13 リジェクト部
15 取込センサ
21 計数ユニット内搬送部
22 識別計数部
23 操作表示部
24 音声出力部
25 制御部
26 記憶部
31 主搬送路
32 分岐搬送路
41 集積ユニット内搬送部
42 連結搬送路
43 分岐搬送路
44 下方延出部
45~48 側方延出部
51 第一集積部
52 第二集積部
53 第三集積部
54 第四集積部
55 退避ポケット
58 装置内搬送部
60 底部
61,62,63 壁部
72 取込ローラ
80 カード本体部
81 識別部
82 第一端縁部
83 第二端縁部
84 第三端縁部
85 第四端縁部
86 第一面
87 第二面
88 遮蔽部
91 合成樹脂層
92 遮蔽層
93 露出面
94 直線状部
95 二次元コード
96 第1テキスト表示
97 第2テキスト表示
B(a) 区分部
G 紙葉類群
S 紙葉類
S(a) 処理対象紙葉類
S(b) ディビジョンカード
Claims (5)
- 紙葉類を処理する紙葉類処理装置の投入口から取り込み可能とされ、少なくとも一枚の処理対象紙葉類と重ねて配置されて前記処理対象紙葉類と共に紙葉類群を構成し、前記紙葉類処理装置の取込センサによって識別情報を読み取らせることが可能なディビジョンカードであって、
前記識別情報を含む識別部を有し、合成樹脂シートにより形成されたカード本体部を備えるディビジョンカード。 - 前記取込センサは、センサ光を用いて前記識別情報を読み取る透過型のセンサであって、
前記カード本体部は、前記センサ光を透過させずに遮蔽する遮蔽部と、前記センサ光を透過可能な前記識別部と、
を備える請求項1に記載のディビジョンカード。 - 前記カード本体部は、前記センサ光を透過可能な合成樹脂層と、前記センサ光を遮蔽する前記遮蔽部としての遮蔽層と、を備え、
前記識別部は、前記遮蔽層に覆われずに露出する露出面を有する
請求項2に記載のディビジョンカード。 - 前記カード本体部は、前記紙葉類処理装置に取り込まれる第一方向に延びて互いに背合わせとなるように設けられた第一端縁部および第二端縁部を備え、
前記識別部は、前記第一端縁部と第二端縁部との間に設けられる
請求項1又は2に記載のディビジョンカード。 - 前記カード本体部には、前記第一方向と直交する第二方向に延びて互いに背合わせとなるように第三端縁部および第四端縁部が設けられ、
前記識別部として、
前記第三端縁部に近い側に位置し、前記第一端縁部から前記第二方向の中間部まで前記第三端縁部に沿って延びる第一識別部と、前記第四端縁部に近い側に位置し、前記第二端縁部から前記中間部まで前記第四端縁部に沿って延びる第二識別部と、
を備える請求項4に記載のディビジョンカード。
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP22791679.8A EP4328877A1 (en) | 2021-04-19 | 2022-04-14 | Division card |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2021-070224 | 2021-04-19 | ||
JP2021070224A JP2022165048A (ja) | 2021-04-19 | 2021-04-19 | ディビジョンカード |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2022224905A1 true WO2022224905A1 (ja) | 2022-10-27 |
Family
ID=83723290
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2022/017850 WO2022224905A1 (ja) | 2021-04-19 | 2022-04-14 | ディビジョンカード |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP4328877A1 (ja) |
JP (1) | JP2022165048A (ja) |
WO (1) | WO2022224905A1 (ja) |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2017084036A (ja) | 2015-10-27 | 2017-05-18 | ローレル精機株式会社 | 紙葉類処理装置及び仕切りカード |
JP2020052649A (ja) * | 2018-09-26 | 2020-04-02 | グローリー株式会社 | ヘッダーカード、ヘッダーカードシステム及び紙葉類処理方法 |
JP2021070224A (ja) | 2019-10-30 | 2021-05-06 | 三菱鉛筆株式会社 | ペン先部材並びにペン先部材を備えた筆記具 |
-
2021
- 2021-04-19 JP JP2021070224A patent/JP2022165048A/ja active Pending
-
2022
- 2022-04-14 WO PCT/JP2022/017850 patent/WO2022224905A1/ja active Application Filing
- 2022-04-14 EP EP22791679.8A patent/EP4328877A1/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2017084036A (ja) | 2015-10-27 | 2017-05-18 | ローレル精機株式会社 | 紙葉類処理装置及び仕切りカード |
JP2020052649A (ja) * | 2018-09-26 | 2020-04-02 | グローリー株式会社 | ヘッダーカード、ヘッダーカードシステム及び紙葉類処理方法 |
JP2021070224A (ja) | 2019-10-30 | 2021-05-06 | 三菱鉛筆株式会社 | ペン先部材並びにペン先部材を備えた筆記具 |
Also Published As
Publication number | Publication date |
---|---|
EP4328877A1 (en) | 2024-02-28 |
JP2022165048A (ja) | 2022-10-31 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
KR101357289B1 (ko) | 지폐 식별 계수기 | |
EP2782076B1 (en) | Sheet processing method, sheet processing apparatus, and sheet processing system | |
JP2001357429A (ja) | 紙幣処理機 | |
US20080237332A1 (en) | Sheet processing system, sheet processing apparatus, partitioning cards, and sheet processing method | |
JPWO2008096430A1 (ja) | 紙幣処理装置 | |
US10789802B2 (en) | Paper sheet processing device and partition card | |
RU2697620C2 (ru) | Система обработки листов | |
EP2211311B1 (en) | Bill processing machine | |
WO2016093218A1 (ja) | 紙葉類処理装置 | |
JPWO2009028074A1 (ja) | 紙葉類処理装置 | |
WO2022224905A1 (ja) | ディビジョンカード | |
JP6546047B2 (ja) | 紙葉類処理方法、および紙葉類処理システム | |
US10275974B2 (en) | Paper sheet handling apparatus | |
JP6738953B2 (ja) | 紙葉類処理装置 | |
JP6198929B2 (ja) | 紙葉類処理装置 | |
JPWO2015133392A1 (ja) | 紙葉類処理装置 | |
JP7228434B2 (ja) | 紙幣処理装置 | |
KR102633923B1 (ko) | 장변 투입형 지폐계수기 및 그의 이종 지류 처리 방법 | |
KR102568847B1 (ko) | 지폐 처리 속도를 가변시키는 지폐 처리 장치 | |
WO2021085139A1 (ja) | 紙葉類処理装置 | |
JPH03188592A (ja) | 紙幣処理装置 | |
JP2004240778A (ja) | 券類処理装置、および券類処理システム | |
JPS6235713B2 (ja) | ||
JP2009175921A (ja) | 紙幣処理装置 | |
JP2007226592A (ja) | 紙葉類処理装置 |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 22791679 Country of ref document: EP Kind code of ref document: A1 |
|
WWE | Wipo information: entry into national phase |
Ref document number: 18555791 Country of ref document: US |
|
WWE | Wipo information: entry into national phase |
Ref document number: 2022791679 Country of ref document: EP |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
ENP | Entry into the national phase |
Ref document number: 2022791679 Country of ref document: EP Effective date: 20231120 |