• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention provides a traveling bucket having a media storage port inward, a media discharge port on the outside, and traveling from the media storage position to the media discharge position, and in the direction of the traveling direction with the traveling bucket or in a reverse direction of the bucket direction. Reverse transfer means for allowing the vehicle to run in the direction of the reversed other traveling direction is provided.
    公开号:KR20030010698A
    申请号:KR1020027016978
    申请日:2001-06-13
    公开日:2003-02-05
    发明作者:오가와히로시;니시카와마사토;마치다유타카;후와쇼조
    申请人:오므론 가부시키가이샤;
    IPC主号:
    专利说明:

    Medium processing apparatus {Medium Processing Apparatus}
    [2] In the following description, the banknote range device configured inside the ATM will be described as an example. This type of banknote processing apparatus detachably accommodates a cartridge or a collection box for loading a banknote, and at the beginning of business, at the end of business, or at the time of replenishing the banknote, At the time of collection, maintenance, etc., the staff should attach and detach appropriately. In recent years, requests for consignment operations by third parties have increased, and in such consignment operations of ATMs, it is desired to facilitate the handling operations of cartridges and collection boxes and to detach them in a short time.
    [3] By the way, this kind of ATM is known as a front maintenance machine operated by a clerk from the front of the main body of the apparatus, and a rear maintenance machine operated by a clerk from the rear of the apparatus main body.
    [4] However, when such a maintenance group is specified and installed on one of the front maintenance unit or the rear maintenance unit, one maintenance is given priority and the other is sacrificed. For this reason, it is necessary to select whether it is front maintenance or rear maintenance according to installation conditions, and it was necessary to prepare two types of designs and both devices. In addition, in the case of parts replacement, two types of replacement units are required, a replacement unit dedicated to the front maintenance machine and a replacement unit dedicated to the rear maintenance machine, which is wasteful and uneconomical for the production and management of each exchange unit. .
    [1] The present invention relates to a media processing apparatus that can be applied to, for example, an automated teller machine (ATM) installed in a financial institution. More particularly, the present invention relates to a processing mechanism that can be selectively used according to the front and rear use of the apparatus. A built-in media processing apparatus.
    [20] 1 is an external perspective view of a banknote processing apparatus.
    [21] 2 is an internal configuration diagram of a banknote processing apparatus.
    [22] 3 is a schematic configuration diagram of the rear maintenance unit and the front maintenance unit.
    [23] 4 is a partially exploded perspective view showing the inversion allowance structure of both maintenance groups.
    [24] 5 is a side view of an essential part showing the relationship between the traveling bucket and the traveling rail;
    [25] 6 is an explanatory diagram showing a traveling operation state of the traveling bucket.
    [26] 7 is an enlarged side view illustrating a bill storage structure of the traveling bucket.
    [27] 8 is an external perspective view of the traveling bucket.
    [28] 9 is an explanatory diagram showing various modes of the traveling bucket.
    [29] 10 is a control circuit block diagram of the banknote processing apparatus.
    [30] 11 is a flowchart showing an outline of a withdrawal processing operation of the banknote processing apparatus.
    [31] 12 is a flowchart illustrating a determination processing operation of the traveling bucket stop position.
    [32] 13 is a flowchart illustrating a return operation of the traveling bucket.
    [33] 14 is a flowchart showing banknote accumulation operations in the rear maintenance machine.
    [34] Fig. 15 is a side view showing the sorghum position of the traveling bucket in the rear maintenance machine.
    [35] Fig. 16 is a flowchart showing banknote issuing operation in the rear maintenance machine.
    [36] It is a side view which shows the issuing position of the traveling bucket in a rear maintenance machine.
    [37] Fig. 18 is a flowchart showing the collective collection operation of withdrawal forgetting notes in the rear maintenance machine.
    [38] Fig. 19 is a side view showing a collective collection state of withdrawal forgetting notes to a back menchinance opportunity.
    [39] 20 is a flowchart illustrating a collective collection operation of reset banknotes in the rear maintenance machine.
    [40] It is a side view which shows the collective collection | recovery state of the reset banknote in a back maintenance machine.
    [41] Fig. 22 is a flowchart showing a comprehensive recovery operation of reset banknotes.
    [42] It is a side view which shows the water supply position of the traveling bucket in a front maintenance machine.
    [43] It is a side view which shows the issuing position of the traveling bucket in a front maintenance machine.
    [44] It is a side view which shows the collective collection | recovery state of withdrawal forgetting banknotes in a front maintenance machine.
    [45] It is a side view which shows the collective collection | recovery state of the reset banknote in the front maintenance machine.
    [46] It is a side view which shows the collective collection | recovery state which applied the collection | recovery box of another embodiment to the front maintenance machine.
    [47] FIG. 28 is a side view illustrating a collective collection state in which a collection box of another embodiment is applied to a rear maintenance machine; FIG.
    [48] 29 is a schematic side view of the upper unit of another bungee type;
    [5] Therefore, the present invention provides a media processing apparatus having a common function that can be switched to one of both apparatuses by incorporating one common media processing bucket even when used as a front maintenance apparatus or as a rear maintenance apparatus. It aims to provide.
    [6] The present invention has a traveling bucket having a media storage port inward, a media discharge port at the outside, and traveling from the media storage position to the media discharge position, and the traveling bucket is in the direction of the traveling direction or the bucket direction is reversed. And a reverse conveyance means for allowing the vehicle to travel in the other traveling direction direction reversed.
    [7] As a result, both the front and rear maintenance devices can cope with both devices simply by incorporating a traveling bucket that can run in common with one side and the other, so that both devices can be selected and used. .
    [8] In addition, even when the installation direction of the device between the front use and the rear use of the maintenance device is changed, if the running bucket direction is reversed by 180 °, either the front maintenance device or the rear maintenance device can be supported. Common use of the bucket can be achieved. For example, the direction can be easily changed by 180 degree direction change for every upper unit which incorporates a traveling bucket. Moreover, what is necessary is just to have one type of exchange unit common also in parts exchange. Therefore, if there is one type of traveling bucket and an exchange unit, both can cope, and there is no waste in production and management, and production management is improved.
    [9] Further, in the present invention, when the medium discharged from the cartridge is delivered to the identification unit for identification, and when the medium is identified to be issued, the medium storage port is provided inside when the medium is delivered to an external medium discharge port and discharged. A traveling bucket having a media outlet on the outside and traveling from the media storage position to the media discharge position to allow reversible travel in one medium storage direction or the other medium discharge direction, and traveling in the corresponding traveling bucket direction A travel rail for allowing travel in a direction or in a direction of another travel in which the bucket direction is reversed in a reverse direction, and the medium discharge port of the bucket is provided in one travel direction of the travel bucket that travels the travel rail. Corresponding to the medium outlet of 1, the medium outlet of the bucket in the other direction of travel It is characterized by.
    [10] For this reason, the media outlet of the traveling bucket allows the medium to be ejected from one side in correspondence with the first media outlet in one of the medium ejection positions, and the media outlet of the traveling bucket is the second outlet in the other medium ejection position. Corresponds to the media outlet and allows the media to be ejected from the other side. In this way, the traveling bucket can travel to one side or the other to release the medium at any position.
    [11] Further, the present invention is characterized in that, when the medium discharged from the cartridge is delivered to the identification unit for identification, and when it is identified that the medium is not worth publishing, the non-issuable medium directly collects the non-issuable medium into the collection box.
    [12] For this reason, when there is a medium having no value for issuance at the time of taking out the medium, it can be immediately recovered and, if collectively collected, a highly efficient medium recovery operation can be obtained.
    [13] In addition, the present invention is characterized in that the ejection direction of each cartridge and the collection box mounted to be ejected to the outside of the apparatus is set to one direction of the apparatus.
    [14] In this case, one of the apparatuses can be set on the maintenance side for handling each cartridge and collection box in accordance with the installation conditions. Therefore, the maintenance side can be set regardless of the traveling bucket direction attached in one or the other direction.
    [15] In addition, the present invention is characterized by comprising a movable partition plate for dividing the inner space of the recovery box into one side and the other side and separating and recovering the medium in one side and the other side.
    [16] In this case, when collectively collecting the media from the traveling bucket, even if the stop position of the traveling bucket is the same, the recovery operation can be selected to one or the other by the partition operation of the movable partition plate. For example, the identification failure medium and the different kinds of medium of the drawout forgetting medium can be separately recovered in the same recovery box.
    [17] Further, in the present invention, when the medium discharged from the cartridge is delivered to the identification unit for identification, and the medium is identified to be worth publishing, when the delivery medium is delivered to the external media outlet, the identification unit is used. And having an upper unit having a media receiving port for storing the identified medium on the lower surface of the central part, and having a media outlet at one end, and movable means for positioning the medium discharge of the upper unit on the front side or the rear side of the apparatus. It is characterized by one.
    [18] In this case, when the attachment direction of the upper unit is changed by 180 °, the medium discharge port can be selected at any position on the front side or the rear side of the apparatus, and can be set to use as a front maintenance device or as a rear maintenance device. By changing the attachment direction of the upper unit, the maintenance can be switched to the front side or the rear side.
    [19] Here, maintenance generally refers to maintenance operations such as a detachment operation of a cartridge or a collection box, an operation of removing a media blockage, a periodic inspection, and the like. Also, a bucket refers to a container that temporarily holds a medium. The term "medium" refers to bills, coins, cards, and securities that are subject to processing.
    [49] An embodiment of the present invention will be described below with reference to the drawings.
    [50] The figure shows the banknote processing apparatus comprised in the inside of the non-recycling banknote dispenser provided in a financial institution, and in FIG. 1, this banknote processing apparatus 11 is an upper unit to which 180 degree reversal is attached in a horizontal direction. It is comprised by connecting 12 and the lower unit 13 fixedly installed in the lower part up and down.
    [51] As shown in FIG. 2, the upper unit 12 has a long rectangular parallelepiped shape, and has a banknote ejection opening 15 with a shutter 14 at one end of the upper surface thereof, and a banknote storage port 16 at the center of the lower surface thereof. And a traveling bucket 17 for releasing banknotes traveling along the front-back direction of the unit.
    [52] The lower unit 13 installs a collection box 18 and first to fourth cartridges C1 to C4 in this order from the top to the bottom, and recovers the collection box 18 from the rear side of the lower unit 13. ) And each of the first to fourth cartridges C1 to C4 are provided as a rear maintenance machine for detaching and allowing handling in the horizontal direction.
    [53] In addition, each of the cartridges (C1 to C4) is aligned by storing the bills in a long vertical position by the amount of money, pressurized by the pressure plate 19 from the rear side, the entire bill stored in the front discharge conveying path 20 side Pressurized one sheet is allowed.
    [54] In this case, the discharge conveyance path 20 is connected to the discharge | emission correspondence side of each cartridge C1-C4, and the banknote discharged | emitted from a cartridge is conveyed upwards one by one, and it is the upper unit 12 side from the lower unit 13 side. It conveys to the banknote storing opening 16 of the transfer. In addition, the banknotes discharged to the discharge conveying path 20 is delivered to the identification unit 21 of the upper position, where the authenticity or the amount of money is identified one by one, and at this time, the banknotes identified as appropriate are transferred to the upper unit 12. When identified as banknotes that are delivered but not worth issuing, they are allotted to the collecting box 18 that faces the identification unit 21 in the horizontal direction, and the inner end collecting port 22 that is opened in the opposite end face of the collecting box 18. Collect the banknote from
    [55] In addition, the collection box 18 divides the internal space into partition plates 18a in two front and rear compartments, and has a reject collection unit 18b for collecting reject bank notes and reset bank notes described later on the inner end side. And a withdrawal forgetting collection unit 18e for collecting the withdrawal forgetting paper money on the outer end side to separate and collect each bill.
    [56] By the way, the upper unit 12 is provided with a center line 12L corresponding to the intermediate position in the front-rear direction as the center of the inverted position and is allowed to be reversed by 180 °, and as shown in FIG. As the maintenance machine 11A, the banknote outlet 15 provided in one end of the upper unit 12 is located on the front side, and the cashier or the maintenance worker removes the recovery box 18 or each of the cartridges C1 to C4 from the rear side. Allow access.
    [57] By the way, this banknote processing apparatus 11 is provided so that it can switch to 11F of front maintenance machines from 11 A of back maintenance machines, and is available, and is used as front maintenance machine 11B, FIG. 3 (B). As shown in Fig. 1, the mounting direction of the upper unit 12 may be reversed by 18 ° in the horizontal direction. At this time, the cashier or the maintenance worker can handle the recovery box 18 and the cartridges C1 to C4 from the front side. have.
    [58] In this case, in order to allow the front and rear directions of the upper unit 12 to be reversed 180 degrees, as shown in FIGS. 4A and 4B, the center line 12L is placed on the upper surface of the lower unit 13. Four positioning projections 23... Which are inverted, left, right, and right of symmetry are protruded, and the corresponding positioning recesses 24... Are formed on the lower surface of the upper unit 12 to be engaged with each other. In addition, by changing the engagement direction of the front and rear positions, attachment or detachment is allowed to select either the rear maintenance machine 11A or the front maintenance machine 11B. In addition, the lower surface of the upper unit 12 has a common upper connector 25 for wiring connection in common, and the lower connector 26... In the symmetrical positions before and after the upper surface of the lower unit 13 corresponding thereto. It is provided, and it is possible to electrically connect and drive-control, even if it switches to either direction of the front-back direction.
    [59] In this manner, in the use of the rear maintenance device 11A and the use of the front maintenance device 11B, even when the direction of use is changed, if the direction of the upper unit 12 is reversed by 180 °, the rear maintenance device 11A is reversed. Or any one of the front maintenance device 11B. Moreover, when there is one type of exchange unit which is common also in parts exchange, all can be coped.
    [60] In this case, with the inversion of the upper unit 12, the movement of the traveling type bucket 17 inside the unit also has a traveling function that switches to one of the two maintenance machines 11A and 11B described later.
    [61] The above-described traveling bucket 17 has a storage opening 17a on the lower surface, a discharge opening 17b on the upper surface, and travels forward and backward along the traveling rail 27 as shown in FIG. The running rails 27 are provided on both sides of the upper unit 12 in the front-rear direction, for example, two rail grooves 27a and 27b of the upper rail groove 27a and the lower rail groove 27b. ) In combination.
    [62] The upper rail groove 27a is attached to allow the upper bearing 28a of the traveling bucket 17 to slide in the rail direction, and the lower bearing 28b of the traveling bucket 17 is attached to the lower rail groove 27b. A pinion 28c coaxial with the lower bearing 28b, which is attached to allow the rail to slide in the rail direction and which is rotated by the bucket drive motor M1, is rotated coaxially with the harness groove ( It is attached in the drive transmission state engaged with the rack line 27c provided along 27b). Then, the bucket-type bucket 17 moves forward and backward in the forward / backward direction on the basis of the forward rotation or the reverse rotation of the bucket M1 motor.
    [63] In addition, by changing between two points which are separated up and down of these upper and lower rail grooves 27a and 27b in a perspective freely and combining them in an arbitrary traveling guide shape, as shown in FIG. 6, the front-back direction of the traveling bucket 17 is also shown. The integration posture angle can be freely changed by the stop position, and the storage angle of the banknote, the takeout angle of the banknote, and the fall collection angle of the banknote can be set to a desired angle.
    [64] For example, when used as the rear maintenance machine 11A, when the 1st stop sensor S1 which detects that the traveling bucket 17 moved to the rearmost position detects it, it moves downward from the traveling bucket 17. Since it corresponds to the 1st collection | recovery position P1 which falls and collect | recovers reset banknote in the collection | recovery box 18 of this, it inclines and sets it at the angle which collects and collect | recovers the banknotes accumulated in the traveling bucket 17 collectively.
    [65] In addition, at the detection position of the 2nd stop sensor S2 which moved slightly ahead of this, from the traveling bucket 17 to the 2nd collection position P2 which falls-collects a drawing forget-memory bill to the collection box 18 of the lower side. In order to cope with this, similarly, the withdrawal forgetting paper money accumulated in the traveling bucket 17 is set to be inclined at an angle to drop and collect.
    [66] Then, at the detection position of the third stop sensor S3 which detects that the traveling bucket 17 has reached the position of the center line 12L, it is supplied upward from the discharge conveyance path 20 of the lower unit 13. In this case, the traveling-type bucket 17 is inclined at an integration angle suitable for storing banknotes from the lower side because it corresponds to the delivery position Pm for storing the banknotes.
    [67] In addition, when the upper unit 12 is inverted and used as the front maintenance device 11B, at the detection position of the fourth stop sensor S4 that detects that the traveling bucket 17 has reached the predetermined front position, Since it corresponds to the 3rd collection | recovery position P3 which falls and collect | recovers reset banknote from the traveling bucket 17 toward the collection box 18 below, at this time, the banknote accumulated in the traveling bucket 17 can be collectively dropped. Set the slope to an angle that can be.
    [68] At the detection position of the 5th stop sensor S5 which moved slightly ahead of this, it respond | corresponds to the 4th collection | recovery position P4 which falls-collects the withdrawal forget-memory banknote from the traveling bucket 17 to the collection box 18 below. Therefore, similarly, the withdrawal forgetting paper money accumulated in the traveling bucket 17 is set to be inclined at an angle to drop and collect collectively.
    [69] In addition, at the detection position of the sixth stop sensor S6 that detects that the traveling bucket 17 has reached the foremost end, it corresponds to the issuing position P5 for issuing banknotes. The banknotes accumulated are set to be inclined at an angle to allow taking out collectively from the inclined upper side.
    [70] Next, the banknote accumulation process at the time of operating the traveling bucket 17 is demonstrated.
    [71] As shown in FIG. 7 and FIG. 8, the traveling bucket 17 has a storage port 17a of the traveling bucket 17 which is discharged downward from the transfer position Pm of the banknote of the lower unit 13. Corresponding to the end of the furnace 20, banknotes are received one by one at the storage port 17a of the upper traveling bucket 17.
    [72] The narrow conveyance path 29 which receives banknotes A, such as a sorghum detection sensor S7, conveyance roller R1, a touch roller R2, an integration roller R3 ..., is provided in the lower part of the traveling bucket 17. The banknote A received therein is accumulated at an inclination angle suitable for stacking on the bottom plate 30 and the inclined plate 31 in the traveling bucket 17.
    [73] In addition, the traveling bucket 17 is provided with a mode switching motor M2, and by switching this mode, the traveling bucket 17 is switched to an integrated mode, a conveying or issuing mode, and a retrieval mode which will be described later. can do.
    [74] FIG. 9 (A) shows an integration mode when the traveling bucket 17 is stopped at an initially set reference position, in which the traveling bucket 17 is located at the bill transfer position of the center line 12L. It is a mode at the time of stopping and accumulating the received banknotes one by one, and in this case, an integration operation is performed by switching the mode switching motor M2 to an integration mode.
    [75] Next, the mode switching structure of the traveling bucket 17 will be described. The bank spindle pressing mechanism 34 and the bottom plate opening / closing mechanism 35 are connected to the main shaft 32 of the mode switching motor M2 via a short lever 33. ) Are connected to each other, and the banknote pressing mechanism 34 connects the banknote pressing lever 36 to the short lever 33 via the first link 11, and the banknote pressing of the banknote pressing lever 36 is advanced. It is provided so that movement to the position and the retracted standby position is possible, In the accumulation mode, the banknote pressurizing lever 36 is retracted from the pressurized position and is in the waiting state, and the banknotes guided from the lower side are accumulated one by one in this accumulation space. .
    [76] Further, the bottom plate opening / closing mechanism 35 connects the second link L2 for driving the bottom plate to the short lever lever 33 and moves to the bottom plate closing position in which the second link L2 is advanced and the bottom plate opening position in which the bottom plate is retracted. In the integration mode, the second link L2 is moved forward in the closing direction and set so as to accumulate the banknotes delivered thereto on the bottom plate 30.
    [77] Fig. 9B shows a case where the traveling bucket 17 is switched to the conveying mode or the issuing mode, and the same operation is performed together with both modes, and the conveying mode can travel with the bills in the traveling bucket 17. As a mode to be used at the time, the banknotes accumulated are pressed at a relatively light pressure by the banknote pressing lever 36 to maintain the accumulated state clipped with the inclined plate 31c, and to prevent the banknotes from being disturbed or flying during travel. Is done.
    [78] The issuing mode is a mode used when collectively extracting the banknotes in the conveyed state after the conveyance from the discharge port 17b on the upper side of the bucket. Is set so that a banknote can be taken out from the discharge opening 17b as it is.
    [79] FIG. 9 (C) shows a case where the traveling bucket 17 is switched to the recovery mode, which collects and drops the bills accumulated in the traveling bucket 17 into the collection box 18 below. When the traveling bucket 17 is stopped on the collecting box 18 and is switched to the collecting mode, the bottom plate opening / closing mechanism 35 is opened to drive the banknote in the traveling bucket 17 downward. The drop collection is carried out collectively in the collection box 18.
    [80] In this number of times, if there is a collective number of withdrawal forgetting notes and a collective number of rejected bills, and the user forgets to withdraw the notes after issuing the bills, the next transaction cannot be performed as it is. The withdrawal forgetting collection unit 18c of the collection box 18 is recovered to prepare for the next transaction.
    [81] In addition, when a conveyance failure such as a jam occurs during the conveyance processing, the transaction needs to be invalidated once, and at that time, the number of rejects of the banknotes already accumulated in the traveling bucket 17 is rejected from the collection box 18 below. It recovers to part 18b and prepares for the next transaction.
    [82] In the figure, 37 is an integrated guide plate, 38 is a bottom plate auxiliary guide plate.
    [83] FIG. 10 shows a control circuit block diagram of the banknote processing apparatus 11, and the CPU 101 shows the integrated mode, the conveyance mode or the issue mode, and the retrieval mode at the time of withdrawal processing according to the program stored in the memory 102. As shown in FIG. Control and circuit devices are controlled, and control data and transaction data at this time are stored in the memory 102 for data management.
    [84] The CPU 101 controls the cartridge control unit 103 each time a withdrawal request is made for a bill, and based on this, the particular bill that is stored for each money type from any one of the first to fourth cartridges C1 to C4. It designates, and discharges the withdrawal request number of sheets.
    [85] Moreover, in the discharge conveyance path 20, a detection sensor is installed on a conveyance path, a dividend flapper is provided in a conveyance branch position, and the banknote sent out from each cartridge C1 to C4 is sent out of the identification part 21. Allocate in the direction according to the identification result. For example, if it is identified as an appropriate bill worth issuing, it is branched back from the pick-up position Pm to the upward running bucket 17, and when it is identified as an inappropriate bill not worth issuing, it faces in the horizontal direction. Branch conveyance is carried out to the collection | recovery box 18 to make.
    [86] In addition, the drive time and travel time of each device are counted by the 0S timer T1 and the control timer T2.
    [87] In addition, a banknote detecting sensor is installed and detected at a banknote entrance / exit part such as the traveling bucket 17, the discharge conveying path 20, the cartridges C1 to C4, the collection boxes 18, and the conveying position, Moreover, a shutter is provided and the shutter is opened and closed each time to ensure the conveyance management of banknotes.
    [88] The outline of the withdrawal processing operation of the banknote processing apparatus 11 configured as described above will be described with reference to the flowchart shown in FIG. 11.
    [89] Now, when a withdrawal transaction signal is input to the CPU 101 in accordance with the withdrawal transaction, the CPU 101 confirms that no jam bills or the like remain on the discharge conveyance path 20 prior to the withdrawal processing (step n1). ,
    [90] Moreover, also in the traveling bucket 17, it is confirmed that the banknote processed last time does not remain (step n2).
    [91] At this time, if a banknote remains on the discharge conveyance path 20, it conveys to remove the banknote (step n3),
    [92] In addition, if a banknote remains in the traveling bucket 17, the banknote is collect | recovered in the collection box 18 (step n4).
    [93] If it is confirmed that either of the discharge conveyance path 20 and the traveling bucket 17 mentioned above does not have a residual banknote, and it is in a transaction acceptance state (step n5),
    [94] The CPU 101 confirms that the traveling bucket 17 is stopped at the initially set handover position Pm corresponding to the intermediate position of the upper unit 12, and starts the integration operation (step n6).
    [95] When the traveling bucket 17 does not stop at the water supply position Pm, since the water transfer to the traveling bucket 17 is not possible, the traveling bucket 17 is moved to the initially set water supply position Pm (step). n7 to n8).
    [96] After that, when the traveling bucket 17 completes the operation of accumulating the money amount and the number of bills designated at the delivery position Pm, the traveling bucket 17 is moved to the issuing position P5 and issued from this. (Step n9).
    [97] When the user extracts the withdrawal bill A from the travel type bucket 17 which can be pulled out at this issuing position P5, the shutter 14 of the bill takeout port 15 is closed and the travel bucket 17 is further removed. ) Is returned to the original initial setting position, and the single withdrawal process is finished (step m10).
    [98] When the withdrawal forgetting of a banknote occurs after this withdrawal operation | movement, after closing the shutter 14 of the banknote taking-out opening 15, a collection | recovery operation of a withdrawal forgetting banknote is performed. When the recovery operation is performed, as the front maintenance machine 11B, the recovery box 18 is located on the front side, so that the traveling bucket 17 is moved to the fourth recovery position P4 on the front side a little. After aligning, it falls to the draw-out forget-time collection part 18c of the collection box 18, and collects them collectively (steps n11-n12).
    [99] On the other hand, if it is used as the rear maintenance machine 11A, since the collection | recovery box 18 is located in the rear side, after moving the traveling bucket 17 to the 2nd collection position P2 of the rear side, and positioning it, Similarly, it drops to the draw-out forget-time collection part 18c of the collection box 18, and collects them collectively (step n13).
    [100] Next, the determination processing operation of the stop position of the traveling bucket 17 will be described with reference to the flowchart shown in FIG. 12.
    [101] Now, when the traveling bucket 17 is located on the center line 12L of the upper unit 12 and stopped at the initially set handing position Pm, the third stop sensor S3 detects this and accumulates the bill. It is confirmed that operation is possible (step n21).
    [102] In addition, when the traveling bucket 17 stops at the issuing position P5, the sixth stop sensor S6 detects this and confirms that extraction of the issued bill is possible (step n22).
    [103] In addition, when the traveling bucket 17 is stopped at the fourth collection position P4, the collective collection operation of the withdrawal forgetting paper money when the fifth stop sensor S5 is detected and used as the front maintenance machine 11B is performed. It is confirmed that it is possible (step n23).
    [104] Similarly, when the traveling bucket 17 is stopped at the third recovery position P3, the collective recovery operation of the reset banknote when the fourth stop sensor S4 is detected and used as the front maintenance device 11B is possible. (Step n24).
    [105] Further, when the traveling bucket 17 is stopped at the second recovery position P2, the collective recovery operation of the reset currency when the second stop sensor S2 is detected and used as the rear maintenance device 11A is possible. (Step n25).
    [106] Similarly, when the traveling bucket 17 is stopped at the first recovery position P1, the collective recovery operation of the withdrawal forgetting paper money when the first stop sensor S1 is detected and used as the rear maintenance machine 11A is performed. It is confirmed that it is possible (step n26).
    [107] If the detection signal of the stop sensor cannot be obtained, the traveling bucket 17 is driven to check the current position accurately (step n27).
    [108] Next, a return operation for returning the running bucket 17 to the initial setting position will be described with reference to the flowchart shown in FIG.
    [109] When the CPU 101 detects through the third stop sensor S3 that the traveling bucket 17 stops at the feeding position Pm of the upper unit 12, the return operation for the initially set reference position is completed. Is determined.
    [110] However, when the traveling bucket 17 is stopped at any one of the issuance position P5, the third recovery position P3, and the fourth recovery position P4, the bucket autonomous motor M1 is reversed and the reference number is passed. When driving to return to the position Pm and confirming returning to the initial set position Pm after that, the return operation is completed (steps n31 to n33).
    [111] In addition, when the CPU 101 operates the traveling bucket 17 to return from the second recovery position P2 or the first recovery position P1, the bucket 101 automatically shuts down the bucket motor M1 to provide a reference delivery position Pm. Drive to return to (steps n34 to n35),
    [112] When confirming that the traveling bucket 17 has returned to the feeding position Pm, the traveling bucket 17 is finely positioned and stopped at the feeding position Pm by fine adjustment, for example, by stopping the driving immediately and returning the portion that has passed ( To steps n36 to n4).
    [113] When the CPU 101 confirms that the traveling bucket 17 has returned to the initially set handing position PBO, the return operation is completed (steps n41 to n42).
    [114] Next, the banknote accumulation | operation operation in the case of using it as 11 A of back maintenance machines is demonstrated with reference to the flowchart shown in FIG.
    [115] When the signal of the integrated mode is input to the CPU 101 at this time, the CPU 101 determines whether or not the traveling bucket 17 is stopped at the initially set handing position Pm (step n51),
    [116] If the traveling bucket 17 is not stopped at the water supply position Pm, since the integrated operation cannot be performed, the traveling bucket 17 is moved and stopped at the water supply position Pm (steps n52 to n54).
    [117] As shown in FIG. 15, when confirming that the traveling bucket 17 is stopped at the delivery position Pm, the CPU 101 discharges the banknote from the designated cartridges C1 to C4 (step). n55).
    [118] The discharged bank notes A ... are accumulated and operated one by one into the traveling bucket 17 on the upper side through the discharge conveyance path 20 (step n56).
    [119] If the number of withdrawal requests specified in the traveling bucket 17 is accumulated (step n57),
    [120] The CPU 101 switches to the conveyance mode and causes the traveling bucket 17 to travel to the position of the banknote outlet 15, thereby to take out the banknote (steps n58 to n60).
    [121] Next, the banknote issuing operation in the case of using it as the rear maintenance machine 11A will be described with reference to the flowchart shown in FIG.
    [122] When the signal of the issuing mode is input to the CPU 101 now, the CPU 101 moves the traveling bucket 17 on which the integration operation is completed to the issuing position P5 (step n61).
    [123] After that, as shown in FIG. 17, when the CPU 101 confirms that the traveling bucket 17 is delivered to the issuing position P5 (step m62),
    [124] The CPU 101 enters the issuing mode, opens the shutter 14, and causes the banknote extraction operation to be performed from above the traveling bucket 17 stopped at the issuing position P5 (steps n63 to n67). .
    [125] At this time, even if the pre-set take-out time has elapsed, since the take-out operation or withdrawal of the bill has been forgotten, if the remaining bill is present in the traveling bucket 17, the retrieval operation of the forgotten bill is withdrawn (steps m68 to n74). .
    [126] On the other hand, when the banknote extraction operation is normally performed, the CPU 101 moves the traveling bucket 17 to the original delivery position Pm and closes the shutter 14 of the banknote outlet 15. (Steps m75 to n78).
    [127] The CPU 101 stops the traveling bucket 17 when the traveling bucket 17 moves in the return direction and returns to the original delivery position Pm (steps m79 to n81). .
    [128] Next, the collective collection | recovery operation | movement of withdrawal forgetting banknote when using as 11 A of back maintenance machines is demonstrated with reference to the flowchart shown in FIG.
    [129] Now, when the CPU 101 detects through the inspection sensor (not shown) that the withdrawal forgetting notes are present in the traveling bucket 17, the CPU 101 checks whether the transfer mode or the issuing mode, and neither The processing mode of the traveling bucket is switched to the conveyance mode or the issuing mode (steps n91 to n92).
    [130] When confirming whether it is the conveyance mode or the issuance mode, the CPU 101 moves the traveling bucket 17 to correspond to the first retrieval position P1 corresponding to the drawout retrieval part 18c of the collection box 18. And stop at a position corresponding to the first recovery position P1 (steps n93 to n95),
    [131] After the running bucket 17 is stopped, as shown in FIG. 19, the CPU 101 opens the upper shutter of the draw-out forgetting part 18c and confirms the recovery mode (steps n96 to n98). ,
    [132] The bottom plate 30 is opened to collectively drop the withdrawal forgetting paper money in the traveling bucket 17 to be collectively collected in the withdrawal forgetting collection part 18c of the collection box 18 at the bottom (steps n99 to n101).
    [133] When the CPU 101 confirms that the elapsed time required for the collective collection has passed, the CPU 101 closes the top shutter of the draw-out forgetting collection unit 18c of the collection box 18 and the bottom plate 30 of the traveling bucket 17. After returning to the original closed position again, the collective type collection process of withdrawal forgetting notes is completed by moving the traveling bucket 17 to the original delivery position Pm and returning it (steps n102 to n107).
    [134] Next, the collective collection | recovery operation | movement of reset banknote in the case of using it as 11 A of back maintenance machines is demonstrated with reference to the flowchart shown in FIG.
    [135] Now, when the reset signal is input, the CPU 101 checks whether the transfer mode or the issue mode is established, and otherwise, switches the processing mode of the traveling bucket to the transfer mode or the issue mode (steps n111 to n112).
    [136] When confirming whether it is the conveyance mode or the issuance mode, the CPU 101 moves the traveling bucket 17 to correspond to the second recovery position P2 corresponding to the reject recovery portion 18b of the recovery box 18. And stop at a position corresponding to the second recovery position P2 (steps n113 to n115),
    [137] After the running bucket 17 is stopped, as shown in FIG. 21, the CPU 101 opens the upper shutter of the reject recovery unit 18b and confirms the recovery mode (steps n116 to M118). ,
    [138] The bottom plate 30 is opened, the reset bills in the traveling bucket 17 are collectively dropped downward, and collectively collected by the reject collection unit 18b of the collection box 18 below (steps n119 to n121).
    [139] When the CPU 101 confirms that the elapsed time required for the collective collection has passed, the upper shutter of the reject collection unit 18b is closed, and the bottom plate 30 of the traveling bucket 17 is returned to its original closed position. After returning, the collective type collection process of reset banknotes is complete | finished by moving and moving the traveling bucket 17 to the original delivery position Pm, and returning it (step n122-n127).
    [140] Next, the total collection | recovery operation | movement of reset banknote is demonstrated with reference to the flowchart shown in FIG.
    [141] Now, when the reset signal is input to the CPU 101, the CPU 101 detects that the banknote remains in the traveling bucket 17 and checks it (step n131).
    [142] The CPU 101 determines whether it is currently being used as the front maintenance device 11B (step n132),
    [143] If it is used as the front maintenance machine 11B, the collective collection | recovery position of the reset banknote is located in the front side, and the CPU 101 may move the traveling bucket 17 with the reject collection | recovery part 18b of the collection box 18. The recovery operation is stopped by stopping at the corresponding third recovery position P3 (step n133).
    [144] On the other hand, if it is used as 11 A of rear maintenance machines (step n134),
    [145] Collective count of reset bills. The position is located on the rear side, and the CPU 101 stops the traveling bucket 17 at the second recovery position P2 corresponding to the reject recovery portion 18b of the recovery box 18 and performs the recovery operation (step). n135).
    [146] 23 to 26 show a case where the upper unit 12 is rotated by 180 °, and the upper unit 12 is switched from the rear maintenance unit 11A to the front maintenance unit 11B. The upper unit 12 is used in this case. ), The traveling bucket 17 direction changes to 180 ° direction.
    [147] Therefore, even when the direction is changed to the front maintenance machine 11B in this manner, as shown in FIG. 23, the traveling bucket 17 stops at the delivery position Pm, and the banknote is taken from the lower side of the traveling bucket 17. Since the movement of the integration operation by sheets is only symmetrical movement and the integration operation is the same, the same operation effect can be obtained.
    [148] In addition, as shown in FIG. 24, the traveling bucket 17 stops at the issuing position P5, and the upper discharge port 17b of the traveling bucket 17 corresponds to the banknote ejecting port 15, It has a corresponding structure which allows the banknotes to be taken out collectively from the bank, and the movement for taking out the billing operation is different from the left and right symmetry compared with the rear maintenance machine 11A, and the issuing operation is the same, so that it is used as the front maintenance machine 11B. The same effect can be obtained.
    [149] FIG. 25 shows the recovery operation of the withdrawal forgetting paper money, and the traveling bucket 17 stops at the first recovery position P1 so that the bottom plate 30 of the traveling bucket 17 has the withdrawal forgetting recovery part 18c. It corresponds to the upper surface, has a corresponding structure in which the bottom plate 30 of the traveling bucket 17 is opened and the bills are collectively dropped and recovered by the withdrawal forget-out collecting portion 18c at the lower side. Since the movement differs only in the symmetrical direction compared to the maintenance machine 11A, and the withdrawal operation of the withdrawal forgetting notes is the same, the same effect can be obtained even when used as the front menthense opportunity 11B.
    [150] FIG. 26 shows the recovery operation of the reset banknote, and the traveling bucket 17 stops at the second recovery position P2 so that the bottom plate 30 of the traveling bucket 17 is the upper surface of the reject recovery unit 18b. And a corresponding structure in which the bottom plate 30 of the traveling bucket 17 is opened and the bills are collectively dropped and collected by the reject rejection unit 18b at the lower side. Since the movement differs only in the symmetrical direction compared to the plane 11A, and the retrieval operation of the reset banknote is the same, the same effect can be obtained even when used as the front maintenance machine 11B.
    [151] Next, another embodiment of the collection box will be described.
    [152] FIG. 27 shows another embodiment of the recovery box applied to the front maintenance device 11B, which moves the front and rear positions of the internal space of the recovery box 271 to the reject recovery part 272 and the withdrawal forgetting angle recovery part 273. And a movable partition plate 274 that separates and collects and collects banknotes A from one side and the other side. The lower end is pivoted as a tilting bearing portion 276 so as to tilt in the front-rear direction, and the tilting bearing portion 276 is tilted in the front-rear direction by a solenoid or the like not shown as a tilting point.
    [153] Thereby, even if the stop position of the traveling bucket 17 corresponding to the upper side is the same, the partition operation | movement of this movable partition board 274 is shown, as shown in FIG. Alternatively, as shown in Fig. 27B, the collection operation of the reset banknote can be selected and collectively collected. In addition, it is possible to separately collect and manage banknotes of different contents between the identification bad banknote and the reset banknote side and the withdrawal forgetting banknote side in the collection box 271.
    [154] FIG. 28 shows another embodiment of the collecting box applied to the rear maintenance machine 11A, in which case the driving bucket 17 is only different in orientation, and the other is different from the above-described FIGS. 27A and 27B. Even when used as the rear maintenance machine 11A, the withdrawal forgetting notes can be recovered as shown in Fig. 28A, and the reset notes can be recovered as shown in Fig. 28B. It is possible to obtain the same effect.
    [155] Next, another embodiment of the upper unit will be described.
    [156] As shown in FIG. 29, this upper unit 291 has the banknote storing opening 292 which accommodates a banknote in the lower surface of a center part for common connection, and is fixed to this banknote storing opening 292 and one end part of the front-back direction. Connected with the bucket 293 by the upper conveying path 294, it can be switched by inverting the upper unit 291 by 180 degrees, and as shown in Fig. 29A, the rear maintenance machine ( 295) or as shown in Fig. 29B, the front maintenance device 296 can be used.
    [157] In this case, only the direction of the attachment of the upper unit 291 is changed 180 degrees in the horizontal direction, and the position of the banknote outlet 297 can be switched to the front side or the rear side. Also in this case, since the upper unit 291 is only different and the others are the same, the same effect can be obtained.
    [158] As described above, when using as a front maintenance machine, the banknote outlet of the upper unit should be directed to the maintenance side of the front side, and when using as a rear maintenance machine, the banknote outlet of the upper unit should be directed to the front side and maintained from the rear side thereof. This allows the upper unit to have one common available traveling bucket and to select either device. In addition, since there is only one type of exchange unit that is common in parts replacement, any one type of traveling bucket and exchange unit can cope with all of them, and there is no waste in production and management, and production management is improved.
    [159] In correspondence with the present invention and the configuration of the above-described embodiment,
    [160] The media processing apparatus of this invention corresponds to the banknote processing apparatus 11 of embodiment,
    [161] Likewise below,
    [162] The medium corresponds to the banknote A,
    [163] The media storage port corresponds to the storage port 17a,
    [164] The medium outlet corresponds to the outlet 17b,
    [165] The media storage position corresponds to the bill storage port 16,
    [166] The medium discharge position and the medium outlet correspond to the banknote outlet 15,
    [167] The reverse conveyance means and the movable means correspond to the respective upper units 12, 291, the positioning protrusions 23 and the positioning recesses 24,
    [168] The cartridge corresponds to the first to fourth cartridges C1 to C4,
    [169] The first medium outlet corresponds to the banknote outlet 15 in the rear maintenance machine,
    [170] The second medium outlet corresponds to the banknote outlet 15 in the front maintenance machine,
    [171] The recovery means corresponds to the mode switching motor M2 and the CPU 101.
    [172] This invention is applicable based on the technical idea shown in the claim, and is not limited only to the structure of one embodiment mentioned above.
    [173] According to the present invention, if the running bucket direction is reversed by 180 °, it is possible to correspond to either the front maintenance machine or the rear maintenance machine, and the common use of the travel bucket can be achieved.
    [174] The present invention can be used for a banknote dispenser or an automatic deposit payment machine (ATM) installed in a financial institution.
    权利要求:
    Claims (6)
    [1" claim-type="Currently amended] A traveling bucket having a media receptacle on the inside, a media discharge port on the outside, and traveling from the media storage position to the media discharge position;
    And a reverse conveyance means for allowing the traveling bucket to travel in the direction of one travel direction or the direction of the other travel direction in which the bucket direction is reversed in the reverse direction.
    [2" claim-type="Currently amended] A medium processing apparatus which delivers and identifies a medium discharged from a cartridge to an identification unit, and delivers the medium to an external medium outlet when the medium is identified to be worth issuing.
    A traveling bucket having a media receptacle on the inside, a media discharge port on the outside, and traveling from the media storage position to the media discharge position;
    The reversible traveling is allowed in the traveling bucket direction in one medium storage direction or the other medium discharging direction, and the traveling bucket travels in one traveling direction in which the traveling bucket direction or in the other traveling direction in which the bucket direction is reversed in the reverse direction. Driving rails that allow
    A first medium ejection outlet corresponding to a media outlet of the bucket in one traveling direction of the traveling bucket traveling on the traveling rail;
    And a second medium ejection outlet corresponding to a medium outlet of the bucket in a different traveling direction of the traveling bucket traveling on the traveling rail.
    [3" claim-type="Currently amended] The method according to claim 1 or 2,
    And a retrieving means for delivering the medium discharged from the cartridge to the identification unit for identification and retrieving the non-issueable medium directly into a collection box when the medium is identified as not worth publishing.
    [4" claim-type="Currently amended] The method according to any one of claims 1 to 3,
    And a discharge direction of each of the cartridges and the recovery box, which are mounted to be ejected to the outside of the apparatus, is set in one direction of the apparatus.
    [5" claim-type="Currently amended] The method according to any one of claims 1 to 4,
    And said collection box is provided with a movable partition plate for dividing and collecting the media by dividing the internal space into one side and the other side.
    [6" claim-type="Currently amended] A medium processing apparatus for guiding and identifying a medium discharged from a cartridge to an identification unit, and releasing the medium by guiding the medium to an external medium outlet when it is identified that the medium is worth publishing.
    An upper unit having a media storage opening for accommodating the media identified by the identification portion therein and having a media discharge opening on the outside thereof;
    And moving means for positioning the medium outlet of the upper unit on the front side or the rear side of the apparatus.
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    同族专利:
    公开号 | 公开日
    JPWO2001097183A1|2004-01-08|
    TW571259B|2004-01-11|
    AU6427701A|2001-12-24|
    WO2001097183A1|2001-12-20|
    US20040007624A1|2004-01-15|
    KR100518404B1|2005-09-29|
    CN1436341A|2003-08-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2000-06-15|Priority to JPJP-P-2000-00180011
    2000-06-15|Priority to JP2000180011
    2001-06-13|Application filed by 오므론 가부시키가이샤
    2001-06-13|Priority to PCT/JP2001/005047
    2003-02-05|Publication of KR20030010698A
    2005-09-29|Application granted
    2005-09-29|Publication of KR100518404B1
    优先权:
    申请号 | 申请日 | 专利标题
    JPJP-P-2000-00180011|2000-06-15|
    JP2000180011|2000-06-15|
    PCT/JP2001/005047|WO2001097183A1|2000-06-15|2001-06-13|Medium processing apparatus|
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