Medium processing apparatus

Abstract
A medium processing apparatus for guiding a medium ejected from a cartridge to an identifying section, identifying the medium, guiding the medium to an outside medium take-out section to eject the medium if the medium is identified to be the one capable of being issued or recovering the medium into an internal recovery box if the medium is identified to be the one incapable of being issued or if the issuance of the medium is stopped, comprising a traveling bucket movable while carrying a pile of media and has a lower opening section through which the media can be received from above or ejected and an upper opening section through which the media can be taken out from below and transfer means for connecting the traveling bucket to one of a lower medium receiving position, a lower medium recovering position, and an upper medium take-out position.
Description


TECHNICAL FIELD

[0001] This invention relates to a medium processing apparatus which is constructed inside, for example, a bill dispenser installed in a banking organ, and more particularly to a medium processing apparatus which reduces the jamming factors of a medium transfer system, thereby to enhance a medium processing performance.



BACKGROUND OF THE INVENTION

[0002] Now, a bill processing apparatus will be explained as an example. Usually, the bill processing apparatus of this type is such that a bill delivered from a cartridge is guided to and identified by an identification section, and that, when the identified bill is capable of being issued, it is guided to an external bill take-out port so as to be subjected to an ejection operation, whereas when the identified bill is incapable of being issued or when the utilization of the issuance is stopped, the bill is subjected to the recovery operation of recovering it into an internal recovery box.


[0003] In a case where, in this manner, each bill to be dispensed every transaction process is subjected to a transfer process to the position of the target bill take-out port or recovery box, the transfer distance of the bill which is transferred to each position inside the apparatus is long, and a long time is expended on the transfer process of the bill. Especially, the occurrence rate of a jam heightens in proportion to the transfer distance.


[0004] By way of example, in a case where each bill is transferred from the internal cartridge to the external dispensing port, a long transfer distance for dispensing the bill is required. It is also considered to construct the apparatus having a plurality of dispensing ports selectable so that the transfer distance can be shortened. In this case, however, the plurality of dispensing ports and a plurality of transfer paths are necessitated to make the apparatus large in size and complicated in structure, resulting in a high cost.


[0005] Besides, in a case where reset bills ascribable to the stop of the utilization of a transaction, forgotten bills not taken up, or jammed bills are recovered, the bills are transferred to and recovered into the predetermined recovery box one by one. This poses the problem that the bills ascribable to the different causes of the recoveries coexist in the recovery box and cannot be classified after the recoveries.


[0006] Therefore, this invention has for its object to provide a medium processing apparatus which includes a collective transfer structure that moves a plurality of media to each of various portions in a piled state in transferring the media, and in which the piled media are transferred, whereby the occurrence rate of jams is made remarkably lower than in case of transferring the media individually, so a medium transfer performance of high reliability is attained.



DISCLOSURE OF THE INVENTION

[0007] This invention consists in an apparatus wherein a medium delivered from a cartridge is guided to an identification section and identified thereby, and the medium is guided to an external take-out port and subjected to an ejection operation when the medium is identified to be capable of being issued, whereas the medium is subjected to a recovery operation into an internal recovery box when the medium is identified to be incapable of being issued or utilization of the issuance is stopped, comprising a traveling bucket which piles the media and moves in a state where the media are piled therein, and which has a lower opening for allowing the media to be received or ejected from below, and an upper opening for allowing the media to be taken out from above; and transfer means for connecting said traveling bucket to and associating it with any of a lower medium reception position, a lower medium recovery position and an upper medium take-out position.


[0008] As a result, the traveling bucket can be moved in the state where the media are piled therein, so that the media can be collectively transferred by transferring the traveling bucket to any position by the transfer means. Therefore, a medium transfer time period can be shortened to attain a shorter transaction processing time period, and a transfer length per medium shortens, so that the occurrence rate of jams is simultaneously lowered.


[0009] Besides, in this invention, in a case where the transfer means is constructed including control means for stopping the traveling bucket at the desired connection and association position, the plurality of media can be collectively transferred to the target transfer position through the traveling bucket, and the traveling bucket can be precisely positioned for the connection and association on this occasion. Therefore, the bills can be collectively handed over from the traveling bucket. Moreover, when a plurality of recovery stop positions are set for the collective recovery of the media, it is possible to individually separate and recover reset media which are the media remaining in the apparatus at the occurrence of a failure, and forgotten media which a customer forgot taking up the media.


[0010] Besides, in this invention, in a case where a medium hand-over position at which the media delivered from the cartridge are handed over to the traveling bucket is set at an intermediate part of a transfer path of the transfer means, it is possible to individually transfer the media to the intermediate part of the transfer path, and to collectively transfer the media by the traveling bucket from the intermediate part of the transfer path. Especially, when the intermediate position of the transfer path is set as the hand-over position, a medium take-out port can be selectively set at a desired position of the front side and rear side of the apparatus by changing the mounting direction of the traveling bucket 180° with reference to the hand-over position. By way of example, the apparatus can be set for utilization as a front maintenance machine or for utilization as a rear maintenance machine, and the side of maintenance can be changed-over between the front side and the rear side merely by changing the mounting direction of the traveling bucket. In this case, the “maintenance” signifies the operation of attaching or detaching the cartridge or a recovery box, the operation of removing a medium jam, the maintenance of a routine inspection, etc.


[0011] Besides, in this invention, in case of disposing a lower shutter which opens and closes the lower opening of the traveling bucket, and shutter opening/closing means for opening the lower shutter when the traveling bucket is connected to and associated with the lower medium reception position or the lower medium recovery position, the shutter is closed during the transfer of the traveling bucket so as to prevent the media from being scattered out, the media are allowed to be received from below at the medium reception position, and the media in the traveling bucket can be collectively dropped and recovered by opening the shutter at the medium recovery position, so as to attain an efficient operation of recovering the media. Moreover, on this occasion, the recovery operation is immediately ended owing to the collective recovery of the media, and there is the advantage that a return operation for the next transaction is quickened. Furthermore, when the medium incapable of being issued exists in a medium ejection process, the medium can be immediately recovered from the traveling bucket.


[0012] Besides, in this invention, in case of disposing an upper shutter which opens and closes the upper opening of said traveling bucket, and shutter opening/closing means for opening said upper shutter when said traveling bucket is connected to and associated with the upper medium take-out position, the shutter can be closed during the transfer of the traveling bucket so as to prevent the media from being scattered out, and it can be opened so as to collectively take out the media with ease at the medium take-out position.


[0013] Besides, in this invention, in case of disposing movement means for closing any shutter of said traveling bucket, and for moving the traveling bucket to a bucket take-out position, the shutter is closed during the transfer of the traveling bucket so as to prevent the media from being scattered out, and the traveling bucket can be handled instead of a recovery box by attaching and detaching it at the bucket take-out position.


[0014] Besides, in this invention, in case of disposing means for locking or unlocking the traveling bucket at a stop position, the traveling bucket can be reliably stopped at the stop position, and its position does not fluctuate or shift unexpectedly, so that it can be stably stopped at the desired connection and association position.


[0015] In this manner, the apparatus has a collective transfer structure which transfers the plurality of media to the respective portions in the state where the media are piled. Therefore, the media can be transferred more efficiently than in case of being individually transferred, and especially a jamming condition can be remarkably relieved, so that a stable medium transfer performance of high reliability is attained.


[0016] Here, the “medium” is a general term for bills, coins, cards, securities, etc. which are to be processed. Besides, the “bucket” indicates a container in which the media are temporarily reserved. Further, the “maintenance” is a general term for the operations of attaching and detaching the cartridge or the recovery box, the removal of the medium jam, the maintenance of the routine inspection, etc.







BRIEF DESCRIPTION OF THE DRAWINGS

[0017]
FIG. 1 is an external perspective view of a bill processing apparatus.


[0018]
FIG. 2 is an internal constructional view of the bill processing apparatus.


[0019]
FIG. 3 is a schematic constructional view of a rear maintenance machine as well as a front maintenance machine.


[0020]
FIG. 4 is a partially-exploded perspective view showing the inversion allowing structure of each of the maintenance machines.


[0021]
FIG. 5 is a side view of essential portions showing the relationship between a traveling bucket and traveling rails.


[0022]
FIG. 6 is an explanatory view showing the traveling operation state of the traveling bucket.


[0023]
FIG. 7 is an enlarged side view showing the bill reception structure of the traveling bucket.


[0024]
FIG. 8 is an external perspective view of the traveling bucket.


[0025]
FIG. 9 is an explanatory view showing several modes of the traveling bucket.


[0026]
FIG. 10 is a control circuit block diagram of the bill processing apparatus.


[0027]
FIG. 11 is a flowchart showing the outline of the dispensing process operation of the bill processing apparatus.


[0028]
FIG. 12 is a flowchart showing a decision process operation for the stop position of the traveling bucket.


[0029]
FIG. 13 is a flow chart showing a return operation for the traveling bucket.


[0030]
FIG. 14 is a flow chart showing a bill piling operation in the rear maintenance machine.


[0031]
FIG. 15 is a side view showing the hand-over position of the traveling bucket in the rear maintenance machine.


[0032]
FIG. 16 is a flow chart showing a bill issuance operation in the rear maintenance machine.


[0033]
FIG. 17 is a side view showing the issuance position of the traveling bucket in the rear maintenance machine.


[0034]
FIG. 18 is a flow chart showing a collective recovery operation for forgotten bills not taken up, in the rear maintenance machine.


[0035]
FIG. 19 is a side view showing a collective recovery status for the forgotten bills not taken up, in the rear maintenance machine.


[0036]
FIG. 20 is a flow chart showing a collective recovery operation for reset bills in the rear maintenance machine.


[0037]
FIG. 21 is a side view showing a collective recovery status for the reset bills in the rear maintenance machine.


[0038]
FIG. 22 is a flowchart showing an overall recovery operation for reset bills.


[0039]
FIG. 23 is a side view showing the hand-over position of the traveling bucket in the front maintenance machine.


[0040]
FIG. 24 is a side view showing the issuance position of the traveling bucket in the front maintenance machine.


[0041]
FIG. 25 is a side view showing a collective recovery status for forgotten bills not taken up in the front maintenance machine.


[0042]
FIG. 26 is a side view showing a collective recovery status for reset bills in the front maintenance machine.


[0043]
FIG. 27 is a side view of essential portions showing the locking operation of the traveling bucket.


[0044]
FIG. 28 is a side view of essential portions showing the unlocking operation of the traveling bucket.


[0045]
FIG. 29 is a rear view of essential portions showing the drive transmission mechanism of the traveling bucket.


[0046]
FIG. 30 is a schematic side view showing the upper shutter mechanism of the traveling bucket.


[0047]
FIG. 31 is a transfer explaining view showing the closed movement state of the traveling bucket.


[0048]
FIG. 32 is a view for explaining a bill recovery operation according to another embodiment of a traveling bucket.


[0049]
FIG. 33 is a movement explaining view showing a traveling-bucket movement mechanism.







BEST MODE FOR CARRYING OUT THE INVENTION

[0050] One embodiment of this invention will now be described in detail with reference to the drawings.


[0051] The drawings illustrate a bill processing apparatus which is constructed inside a bill dispenser of non-recycle type installed in a banking organ. Referring to FIG. 1, the bill processing apparatus 11 is so constructed that an upper unit 12 which is mounted allowing a 180° inversion in a horizontal direction, and a lower unit 13 which is fixedly attached under the upper unit 12, are vertically joined.


[0052] As shown in FIG. 2, the upper unit 12 is in the shape of an oblong rectangular parallelepiped. It has a bill take-out port 15 with a shutter 14, at one end part of the upper surface of the rectangular parallelepiped, and a bill reception port 16 at the central part of the lower surface thereof. It includes therein a traveling bucket 17 for ejecting bills as travels in the longitudinal direction thereof.


[0053] The lower unit 13 is mounted as a rear maintenance machine in which a recovery box 18 and first-fourth cartridges C1-C4 are disposed successively from above in the order mentioned, and in which the recovery box 18 and the first-fourth cartridges C1-C4 can be respectively detached in the horizontal direction and handled from the rear side of this lower unit 13.


[0054] Besides, the cartridges C1-C4 align and accommodate bills for the individual sorts of the bills in standing oblong postures, and each of them can put out one bill in such a way that the whole accommodated bills are pressed by a pressing plate 19 from behind so as to be urged under pressure onto the side of a front delivery transfer path 20.


[0055] In this case, the delivery transfer path 20 is connected to the delivery motion side of each of the cartridges C1-C4, whereby the bills delivered from the cartridge are handed over and transferred upwards one by one from the side of the lower unit 13 toward the bill reception port 16 located on the side of the upper unit 12. Besides, each bill delivered to the delivery transfer path 20 is guided to an identification section 21 at an upper position, and it is identified here as to the sort of this bill and whether it is true or false. The bill identified proper on this occasion is guided to the upper unit 12. In contrast, when the bill has been identified as one incapable of being issued, it is distributed onto the side of the recovery box 18 opposing to the identification section 21 in the horizontal direction until it is recovered through an inner-end recovery port 22 which opens in the opposing end face of the recovery box 18.


[0056] Besides, the recovery box 18 has its internal space partitioned into two, front and rear divisions by a partition plate 18a. A rejection recovery portion 18b which recovers rejected bills, and reset bills to be stated later is defined on the inner end side of the recovery box 18, while a forgotten-bill recovery portion 18c which recovers bills not taken up is defined on the outer end side. Thus, the respective bills are separated and recovered.


[0057] Meanwhile, the upper unit 12 is disposed allowing the 180° inversion in a state where a center line 12L corresponding to a middle position in the longitudinal direction forms the center of an inversion position. Usually, as shown in FIG. 3(A), the bill take-out port 15 provided at one end part of the upper unit 12 is located on the front side of the bill processing apparatus as the rear maintenance machine 11A, so that a clerk in charge or a maintenance engineer can put in and out the recovery box 18 and the cartridges C1-C4 from the rear side.


[0058] In addition, the bill processing apparatus 11 is installed so as to be utilizable by changing the rear maintenance machine 11A over to a front maintenance machine 11B. In case of using the apparatus as the front maintenance machine 11B, as shown in FIG. 3(B), the mounting direction of the upper unit 12 may be inverted 180° in the horizontal direction. On this occasion, a clerk in charge or a maintenance engineer can handle the recovery box 18 and the cartridges C1-C4 from the front side.


[0059] In this case, in order to allow the sense of the upper unit 12 in the longitudinal direction to be inverted 180°, as shown in FIGS. 4(A) and 4(B), four positioning protrusions 23, . . . which are symmetric in longitudinal and lateral directions with the center line 12L as an inversion reference are provided on the upper surface of the lower unit 13, while positioning recesses 24, . . . which correspond to the respective protrusions are formed in the lower surface of the upper unit 12 and are brought into engagement with the respective protrusions, and the front and rear positions of the upper unit 12 to be brought into engagement with the lower unit 13 are changed-over, whereby the units 12 and 13 can be detachably attached so as to select either the rear maintenance machine 11A or the front maintenance machine 11B. Besides, an upper connector 25 for electrically wiring and connecting the upper unit 12 in common is disposed on the lower surface of this upper unit, and lower connectors 26, . . . are respectively disposed at those front and rear symmetric positions of the upper surface of the lower unit 13 which correspond to the upper connector 25, so that the upper and lower units 12, 13 can be electrically connected for a drive control in both the front and rear maintenance machines.


[0060] In this manner, even in case of altering the direction of utilization as to the utilization of the rear maintenance machine 11A or the front maintenance machine 11B, the apparatus 11 can be conformed to either of the rear maintenance machine 11A and the front maintenance machine 11B by inverting the sense of the upper unit 12 to the amount of 180°. Besides, any component exchange can be coped with by a common spare unit of one kind.


[0061] In this case, the movement of the traveling bucket 17 inside the upper unit 12 is endowed with a traveling function to be stated later, which conforms to the changeover to either of the maintenance machines 11A, 11B in accordance with the inversion of the upper unit 12.


[0062] The traveling bucket 17 stated above has a reception opening 17a in its lower surface, and an ejection opening 17b in its upper surface. As shown in FIG. 5, the bucket 17 travels and moves in the longitudinal direction along traveling rails 27. The traveling rails 27 are disposed on both the sides of the upper unit 12 in the longitudinal direction thereof, and each of them is constructed by combining, for example, the two rail grooves 27a, 27b of an upper rail groove 27a and a lower rail groove 27b.


[0063] The upper bearing 28a of the traveling bucket 17 is fitted in the upper rail groove 27a so as to be rotatingly slidable in the direction of the rail, while the lower bearing 28b of the traveling bucket 17 is fitted in the lower rail groove 27b so as to be rotatingly slidable in the rail direction. Further, a pinion 28c which is rotated by receiving the rotation driving force of a bucket self-propelling motor M1 is mounted coaxially with the lower bearing 28b in a drive transmitting state where this pinion 28c meshes with a rack line 27c disposed along the lower rail groove 27b. Thus, the traveling bucket 17 is moved to advance or retreat in the longitudinal direction on the basis of the normal rotation or reverse rotation of the bucket self-propelling motor M1.


[0064] Besides, the upper and lower rail grooves 27a, 27b are combined into any desired traveling guide shape by freely changing the distance between two points which separate these rail grooves vertically. Thus, as shown in FIG. 6, the angle of a piling posture in the longitudinal direction of the traveling bucket 17 can be freely altered depending upon a stop position, so that the receiving angle of the bills, the taking-out angle thereof and the dropping and recovering angle thereof can be set at desired angles.


[0065] By way of example, in case of using the apparatus as the rear maintenance machine 11A, when a first stop sensor S1 has sensed that the traveling bucket 17 has moved to the rearmost position, the traveling bucket 17 corresponds to a first recovery position P1 at which the reset bills are dropped and recovered from the traveling bucket 17 into the underlying recovery box 18. On this occasion, therefore, the bills piled in the traveling bucket 17 are inclined and set to an angle for collectively dropping and recovering them.


[0066] Further, at that sensing position of a second stop sensor S2 at which the traveling bucket 17 has moved somewhat ahead of the rearmost position, the traveling bucket 17 corresponds to a second recovery position P2 at which the bills not taken up are dropped and recovered from the traveling bucket 17 into the underlying recovery box 18. Therefore, the forgotten bills piled in the traveling bucket 17 are similarly inclined and set to an angle for collectively dropping and recovering them.


[0067] In addition, at the sensing position of a third stop sensor S3 which senses that the traveling bucket 17 has reached the position of the center line 12L, the traveling bucket 17 corresponds to a hand-over position Pm at which the bills supplied upwards from the delivery transfer path 20 of the lower unit 13 are received. On this occasion, therefore, the traveling bucket 17 is inclined and set to a piling angle which is suited to receive the bills from below.


[0068] Further, in case of using the apparatus as the front maintenance machine 11B through the inversion of the upper unit 12, at the sensing position of a fourth stop sensor S4 which senses that the traveling bucket 17 has reached a predetermined front position, the traveling bucket 17 corresponds to a third recovery position P3 at which the reset bills are dropped and recovered from the traveling bucket 17 toward the underlying recovery box 18. On this occasion, therefore, the bills piled in the traveling bucket 17 are inclined and set to an angle for collectively dropping them.


[0069] At that sensing position of a fifth stop sensor S5 at which the traveling bucket 17 has moved somewhat ahead of the front position, the traveling bucket 17 corresponds to a fourth recovery position P4 at which the bills not taken up are dropped and recovered from the traveling bucket 17 into the underlying recovery box 18. Therefore, the forgotten bills piled in the traveling bucket 17 are similarly inclined and set to an angle for collectively dropping and recovering them.


[0070] Besides, at the sensing position of a sixth stop sensor S6 which senses that the traveling bucket 17 has reached the front most end, the traveling bucket 17 corresponds to an issuance position P5 at which the bills are issued. On this occasion, therefore, the bills piled in the traveling bucket 17 are inclined and set to an angle at which they can be collectively taken out obliquely from above.


[0071] Next, there will be described a process for piling bills in the case of operating the traveling bucket 17.


[0072] As shown in FIGS. 7 and 8, the traveling bucket 17 is such that its reception opening 17a corresponds to the terminal end of the underlying delivery transfer path 20 at the bill hand-over position Pm of the lower unit 13, whereby the bills are handed over to the overlying reception opening 17a of the traveling bucket 17 one by one.


[0073] Disposed under the traveling bucket 17 is a pinching transfer path 29 for accepting the bills A as consists of a hand-over sensor S7, a transfer roller R1, a touch roller R2, a piling roller R3, . . . . The bills A accepted here lean against a bottom plate 30 and an inclined plate 31 in the traveling bucket 17, and are piled at a suitable inclination angle.


[0074] Besides, the traveling bucket 17 includes a mode changeover motor M2, and by changing over the mode of this motor it can be changed-over into a piling mode, a transfer or issuance mode or a recovery mode to be explained below.


[0075]
FIG. 9(A) shows the piling mode in the case where the traveling bucket 17 is held stopped at an initialized reference position. The piling mode is a mode in the case where the traveling bucket 17 stops at the bill hand-over position of the center line 12L and piles the received bills one by one. On this occasion, the piling operation is performed by bringing the mode changeover motor M2 into the piling mode.


[0076] Next, the mode changeover structure of the traveling bucket 17 will be described. A bill pressing mechanism 34 and a bottom-plate shutting mechanism 35 are respectively coupled to the main shaft 32 of the mode changeover motor M2 through a short lever 33. The bill pressing mechanism 34 couples a bill pressing lever 36 to the short lever 33 through a first link L1 so that the bill pressing lever 36 can move to an advanced bill pressing position and a retreated standby position. In the piling mode, the bill pressing lever 36 is retreated from the pressing position into a standby status, and the bills guided into the piling space from below are piled one by one.


[0077] Besides, the bottom-plate shutting mechanism 35 couples a second link L2 for driving the bottom plate 30, to the short lever 33 so that the second link L2 can move to an advanced bottom-plate closing position and a retreated bottom-plate opening position. In the piling mode, the second link L2 is advanced and moved in a closing direction so as to pile the bills guided here, on the bottom plate 30.


[0078]
FIG. 9(B) shows a case where the traveling bucket 17 is changed-over into the transfer mode or the issuance mode. The same operation is performed in both the transfer and issuance modes. The transfer mode is a mode which is used when the traveling bucket 17 travels while containing the bills. The piled bills are pressed under a comparatively light pressure by the bill pressing lever 36, and they maintain a piled state where they are clipped between the lever 36 and the inclined plate 31, whereby the bills are prevented from being disordered or scattered during the traveling.


[0079] The issuance mode is a mode which is used when the bills in the piled state after being transferred are allowed to be collectively drawn out of the ejection opening 17b located at the upper part of the bucket. Herein, the bills in an aligned and piled state are lightly clipped by the bill pressing lever 36 similarly to the above, whereby a user can draw out the bills from the ejection opening 17b in the clipped condition.


[0080]
FIG. 9(C) shows a case where the traveling bucket 17 is changed-over into the recovery mode. The recovery mode is a mode which is used when the bills piled in the traveling bucket 17 are collectively dropped and recovered into the underlying recovery box 18. When the traveling bucket 17 is changed-over into the recovery mode upon its stop over the recovery box 18, the bottom-plate shutting mechanism 35 is driven to open, and the bills in the traveling bucket 17 are collectively dropped and recovered into the underlying recovery box 18.


[0081] The recovery here is classified into the collective recovery of the forgotten bills and that of the rejected bills. In a case where a user has forgotten taking up the bills after the issuance of the bills, the next transaction cannot be performed in a condition left intact. Therefore, the bills not taken up are recovered into the forgotten-bill recovery portion 18c of the recovery box 18 so as to prepare for the next transaction.


[0082] Besides, in a case where a transfer failure such as jam has occurred midway of the transfer process, the pertinent transaction needs to be invalidated once. In this regard, the bills already piled in the traveling bucket 17 at that time are recovered into the rejection recovery portion 18b of the underlying recovery box 18 so as to prepare for the next transaction.


[0083] In the figures, numeral 37 designates a piling guide plate, and numeral 38 a bottom-plate auxiliary guide plate.


[0084]
FIG. 10 shows a control circuit block diagram of the bill processing apparatus 11. A CPU 101 controls circuit devices and the piling mode, transfer mode or issuance mode, and recovery mode in a bill dispensing process in accordance with programs stored in a memory 102, and it stores control data and transaction data on this occasion in the memory 102 so as to manage the data.


[0085] Each time a request for dispensing bills is made, the CPU 101 controls a cartridge control section 103 so as to designate specified bills accommodated for the individual sorts of bills in the first-fourth cartridges C1-C4, on the basis of the request, and to deliver the number(s) of the bills requested to be dispensed, from the corresponding one(s) of the cartridges C1-C4.


[0086] Besides, sensors are disposed on the delivery transfer path 20, and distributing flappers are disposed at transfer branch positions, whereby the bills delivered from the cartridges C1-C4 are distributed in directions corresponding to the identified results of the identification section 21. By way of example, when the bill has been identified as a proper one capable of being issued, it is branched and transferred from the hand-over position Pm toward the overlying traveling bucket 17, and when the bill has been identified as an improper one incapable of being issued, it is branched and transferred toward the recovery box 18 opposing in the horizontal direction.


[0087] Also, the drive time periods and traveling time periods of the various devices are kept by an OS timer T1 and a controlling timer T2.


[0088] In addition, at the bill putting-in and -out parts and transfer positions of the traveling bucket 17, delivery transfer path 20, cartridges C1-C4, recovery box 18, etc., bill sensors are disposed so as to sense and check the bills, and shutters are disposed so as to ensure a bill transfer management by driving the shutters to open and close on each occasion.


[0089] The outline of the dispensing process operation of the bill processing apparatus 11 thus constructed will be described with reference to a flow chart shown in FIG. 11.


[0090] Now, when a dispensing transaction signal is inputted to the CPU 101 in accordance with a dispensing transaction, this CPU 101 confirms before a dispensing process, that jammed bills or the likes do not remain on the delivery transfer path 20 (step n1); and


[0091] that any bill in a last process does not remain in the traveling bucket 17, either (step n2).


[0092] On this occasion, if any bill remains on the delivery transfer path 20, a transfer process is performed in order to remove the bill (step n3); and


[0093] if any bill remains in the traveling bucket 17, a recovery process is performed for recovering the bill into the recovery box 18 (step n4).


[0094] If the CPU 101 confirms a transaction allowing status where the remaining bill exists on or in neither of the delivery transfer path 20 and traveling bucket 17 mentioned above (step n5),


[0095] it starts a piling operation upon confirming that the traveling bucket 17 lies stopped at its initialized hand-over position Pm corresponding to the intermediate position of the upper unit 12 (step n6).


[0096] When the traveling bucket 17 does not lie stopped at the hand-over position Pm, any bill cannot be handed over to the traveling bucket 17, and hence, this traveling bucket 17 is moved to the initialized hand-over position Pm (steps n7-n8).


[0097] Thereafter, when the traveling bucket 17 has completed a bill piling operation for the designated sorts and numbers of bills at the hand-over position Pm, it is moved to travel from the hand-over position Pm to the issuance position P5, at which the bills can be issued (step n9).


[0098] When a user has drawn out the bills to-be-dispensed A . . . from the traveling bucket 17 stopped at the issuance position P5 so as to allow the drawing-out, the shutter 14 of the bill take-out port 15 is closed, and the traveling bucket 17 is returned to the original initialized position. Then, one dispensing process is ended (step n10).


[0099] In a case where the bills are not taken up after the dispensing operation, the shutter 14 of the bill take-out port 15 is closed, and the operation of recovering the forgotten bills is thereafter performed. Regarding the recovery operation here, when the apparatus is used as the front maintenance machine 11B, the recovery box 18 lies on the front side. Therefore, the traveling bucket 17 is positioned by slightly moving it toward the fourth recovery position P4 on the front side, and the bills are thereafter dropped from the position P4 into the forgotten-bill recovery portion 18c of the recovery box 18 so as to be collectively recovered (steps n11-n12).


[0100] In contrast, when the apparatus is used as the rear maintenance machine 11A, the recovery box 18 lies on the rear side. Therefore, the traveling bucket 17 is positioned by greatly moving it toward the second recovery position P2 on the rear side, and the bills are thereafter dropped into the forgotten-bill recovery portion 18c of the recovery box 18 so as to be collectively recovered similarly to the above (step n13).


[0101] Next, a decision process operation for the stop position of the traveling bucket 17 will be described with reference to a flow chart shown in FIG. 12.


[0102] Now, when the traveling bucket 17 lies on the center line 12L of the upper unit 12 and is stopped at the initialized hand-over position Pm, the third stop sensor S3 senses this state, and the CPU confirms that the operation of piling bills is possible (step n21).


[0103] Besides, when the traveling bucket 17 lies stopped at the issuance position P5, the sixth stop sensor S6 senses this state, and the CPU confirms that the drawing-out of issued bills is possible (step n22).


[0104] Further, when the traveling bucket 17 lies stopped at the fourth recovery position P4, the fifth stop sensor S5 senses this state, and the CPU confirms that the collective recovery operation for forgotten bills not taken up is possible in the utilization of the apparatus as the front maintenance machine 11B (step n23).


[0105] Likewise, when the traveling bucket 17 lies stopped at the third recovery position P3, the fourth stop sensor S4 senses this state, and the CPU confirms that the collective recovery operation for reset bills is possible in the utilization as the front maintenance machine 11B (step n24).


[0106] Besides, when the traveling bucket 17 lies stopped at the second recovery position P2, the second stop sensor S2 senses this state, and the CPU confirms that the collective recovery operation for reset bills is possible in the utilization of the apparatus as the rear maintenance machine 11A (step n25).


[0107] Likewise, when the traveling bucket 17 lies stopped at the first recovery position P1, the first stop sensor S1 senses this state, and the CPU confirms that the collective recovery operation for forgotten bills not taken up is possible in the utilization as the rear maintenance machine 11A (step n26).


[0108] Besides, in a case where the sensing signal of any stop sensor is not obtained, the traveling bucket 17 is caused to travel, and its current position is precisely checked (step n27).


[0109] Next, the return operation of returning the traveling bucket 17 to its initialized position will be described with reference to a flow chart shown in FIG. 13.


[0110] When the CPU 101 has sensed and confirmed through the third stop sensor S3 that the traveling bucket 17 lies stopped at the hand-over position Pm of the upper unit 12, it decides the completion of the return operation because the position Pm is the initialized reference position.


[0111] However, when the traveling bucket 17 lies stopped at any of the issuance position P5, third recovery position P3 and fourth recovery position P4, the CPU drives and reverses the bucket self-propelling motor M1 so as to return the traveling bucket to the reference hand-over position Pm. Thereafter, when the CPU confirms that the traveling bucket has returned to the initialized hand-over position Pm, the return operation is completed (steps n31-n33).


[0112] Besides, when the traveling bucket 17 is to be subjected to the return operation from the second recovery position P2 or first recovery position P1, the CPU 101 drives and normally rotates the bucket self-propelling motor M1 so as to return the traveling bucket to the reference hand-over position Pm (steps n34-n35).


[0113] Upon confirming that the traveling bucket 17 has been returned to the hand-over position Pm, the CPU immediately stops the traveling of the traveling bucket 17, and it makes fine adjustments such as canceling an excessive component, thereby to precisely position and stop the traveling bucket 17 at the hand-over position Pm (steps n36-n40).


[0114] In addition, upon confirming that the traveling bucket 17 has been returned to the initialized hand-over position Pm, the CPU 101 completes the return operation (steps n41-n42).


[0115] Next, a bill piling operation in the case of utilizing the apparatus as the rear maintenance machine 11A will be described with reference to a flow chart shown in FIG. 14.


[0116] Now, when the signal of the piling mode is inputted to the CPU 101, this CPU 101 decides whether or not the traveling bucket 17 lies stopped at the initialized hand-over position Pm (step n51); and


[0117] unless the traveling bucket 17 lies stopped at the hand-over position Pm, the piling operation cannot be performed, so that the traveling bucket 17 is moved to travel and is stopped at the hand-over position Pm (steps n52-n54).


[0118] Subsequently, upon confirming that the traveling bucket 17 lies stopped at the hand-over position Pm as shown in FIG. 15, the CPU 101 delivers bills from a designated one of the cartridges C1-C4 (step n55).


[0119] The delivered bills A . . . are subjected to the piling operation toward the overlying traveling bucket 17 through the delivery transfer path 20 one by one (step n56).


[0120] When the designated number of bills requested to be dispensed are piled in the traveling bucket 17 (step n57),


[0121] the CPU 101 changes the piling mode into the transfer mode and causes the traveling bucket 17 to travel the position of the bill take-out port 15, and it allows the user to take out the bills from this bill take-out port (steps n58-n60).


[0122] Next, a bill issuance operation in the case of utilizing the apparatus as the rear maintenance machine 11A will be described with reference to a flow chart shown in FIG. 16.


[0123] Now, when the signal of the issuance mode is inputted to the CPU 101, this CPU 101 moves the traveling bucket 17 having completed the piling operation, so as to travel toward the issuance position P5 (step n61); and


[0124] thereafter, upon confirming that the traveling bucket 17 has been guided to the issuance position P5 as shown in FIG. 17 (step n62),


[0125] the CPU 101 establishes the issuance mode, and opens the shutter 14 and allows the user to perform a bill drawing-out action from above the traveling bucket 17 stopped at the issuance position P5 (steps n63-n67).


[0126] On this occasion, even when a preset wait time for the drawing-out has lapsed, the bill drawing-out action is not performed, or any forgotten bill not taken up remains in the traveling bucket 17, the CPU performs the operation of recovering the forgotten bill (steps n68-n74).


[0127] In contrast, when the bill drawing-out action is normally performed, the CPU 101 moves the traveling bucket 17 so as to travel to the original hand-over position Pm, and it operates the shutter 14 of the bill take-out port 15 so as to close (steps n75-n78).


[0128] When the traveling bucket 17 has been moved in its returning direction and returned to the original hand-over position Pm, the CPU 101 stops this traveling bucket 17, thereby to end one issuance process (steps n79-n81).


[0129] Next, the collective recovery operation for forgotten bills not taken up, in the case of utilizing the apparatus as the rear maintenance machine 11A will be described with reference to a flow chart shown in FIG. 18.


[0130] Now, when the CPU 101 has sensed through an unshown sensor that any forgotten bill not taken up exists in the traveling bucket 17, it checks if this bucket is in the transfer mode or issuance mode, and in neither of the modes, it changes-over the process mode of the traveling bucket into the transfer mode or issuance mode (steps n91-n92).


[0131] Upon confirming the transfer mode or issuance mode, the CPU 101 moves the traveling bucket 17 so as to correspond to the first recovery position P1 corresponding to the forgotten-bill recovery portion 18c of the recovery box 18, and it stops this bucket at the position corresponding to the first recovery position P1 (steps n93-n95);


[0132] after the stop of the traveling bucket 17, the CPU 101 opens the upper shutter of the forgotten-bill recovery portion 18c as shown in FIG. 19 and confirms the recovery mode (steps n96-n98); and


[0133] thereafter, the CPU opens the bottom plate 30 and collectively drops the forgotten bills in the traveling bucket 17, thereby to collectively recover the bills into the forgotten-bill recovery portion 18c of the underlying recovery box 18 (steps n99-n101).


[0134] Upon confirming the lapse of a time period required for the collective recovery, the CPU 101 closes the upper shutter of the forgotten-bill recovery portion 18c of the recovery box 18 and brings the bottom plate 30 of the traveling bucket 17 back into its original closed position again, and thereafter, it moves the traveling bucket 17 so as to travel and return to the original hand-over position Pm, whereby the collective recovery process for the forgotten bills not taken up is ended (steps n102-n107).


[0135] Next, the collective recovery operation for reset bills in the case of utilizing the apparatus as the rear maintenance machine 11A will be described with reference to a flow chart shown in FIG. 20.


[0136] Now, when a reset signal is inputted, the CPU 101 checks if the traveling bucket is in the transfer mode or issuance mode, and in neither of the modes, it changes-over the process mode of the traveling bucket into the transfer mode or issuance mode (steps n111-n112).


[0137] Upon confirming the transfer mode or issuance mode, the CPU 101 moves the traveling bucket 17 so as to correspond to the second recovery position P2 corresponding to the rejection recovery portion 18b of the recovery box 18, and it stops this traveling bucket at the position corresponding to the second recovery position P2 (steps n113-n115);


[0138] after the stop of the traveling bucket 17, the CPU 101 opens the upper shutter of the rejection recovery portion 18b as shown in FIG. 21 and confirms the recovery mode (steps n116-n118); and


[0139] thereafter, the CPU opens the bottom plate 30 and collectively drops the reset bills in the traveling bucket 17, thereby to collectively recover the bills into the rejection recovery portion 18b of the underlying recovery box 18 (steps n119-n121).


[0140] Upon confirming the lapse of a time period required for the collective recovery, the CPU 101 closes the upper shutter of the rejection recovery portion 18b and brings the bottom plate 30 of the traveling bucket 17 back into its original closed position again, and thereafter, it moves the traveling bucket 17 so as to travel and return to the original hand-over position Pm, whereby the collective recovery process for the reset bills is ended (steps n122-n127).


[0141] Next, a comprehensive recovery operation for reset bills will be described with reference to a flow chart shown in FIG. 22.


[0142] Now, when a reset signal has been inputted to the CPU 101, this CPU 101 senses and confirms that any bill remains in the traveling bucket 17, and upon the confirmation (step n131),


[0143] the CPU 101 decides whether or not the apparatus is currently utilized as the front maintenance machine 11B (step n132); and


[0144] subject to the utilization as the front maintenance machine 11B, a collective recovery position for the reset bills lies on the front side, and the CPU 101 stops the traveling bucket 17 at the third recovery position P3 corresponding to the rejection recovery portion 18b of the recovery box 18 so as to perform a recovery operation (step n133).


[0145] In contrast, if the apparatus is utilized as the rear maintenance machine 11A (step n134),


[0146] a collective recovery position for the reset bills lies on the rear side, and the CPU 101 stops the traveling bucket 17 at the second recovery position P2 corresponding to the rejection recovery portion 18b of the recovery box 18 so as to perform a recovery operation (step n135).


[0147] FIGS. 23-26 show the case of utilization where the upper unit 12 has its direction changed 180°, whereby the rear maintenance machine 11A already explained is changed-over to the front maintenance machine 11B. In this case, the sense of the traveling bucket 17 is changed 180° together with the upper unit 12.


[0148] Accordingly, even when the direction of the apparatus is changed as the front maintenance machine 11B in this manner, those movements of the traveling bucket 17 in which this traveling bucket 17 lies stopped at the hand-over position Pm and receives bills from below one by one so as to perform a piling operation are different merely symmetrically, and the piling operation itself is the same, as shown in FIG. 23. Therefore, similar functional effects are attained.


[0149] Besides, as shown in FIG. 24, the front maintenance machine 11B has a corresponding structure in which the traveling bucket 17 lies stopped at the issuance position P5, and the upper ejection opening 17b of this traveling bucket 17 corresponds to the bill take-out port 15, thereby to allow the collective take-out of the bills from above. In this manner, the movements of the traveling bucket for the take-out operation differ from those in the rear maintenance machine 11A merely symmetrically, and the issuance operation itself is the same. Therefore, similar functional effects are attained even when the apparatus is utilized as the front maintenance machine 11B.


[0150]
FIG. 25 shows a recovery operation for forgotten bills not taken up. The front maintenance machine 11B has a corresponding structure in which the traveling bucket 17 lies stopped at the first recovery position P1, and the bottom plate 30 of this traveling bucket 17 corresponds to the upper surface of the forgotten-bill recovery portion 18c, so as to collectively drop and recover the bills into the underlying forgotten-bill recovery portion 18c by opening the bottom plate 30 of the traveling bucket 17. In this manner, the movements of the traveling bucket for the recovery operation differ from those in the rear maintenance machine 11A merely symmetrically, and the forgotten-bill recovery operation itself is the same. Therefore, similar functional effects are attained even when the apparatus is utilized as the front maintenance machine 11B.


[0151]
FIG. 26 shows a recovery operation for reset bills. The front maintenance machine 11B has a corresponding structure in which the traveling bucket 17 lies stopped at the second recovery position P2, and the bottom plate 30 of this traveling bucket 17 corresponds to the upper surface of the rejection recovery portion 18b, so as to collectively drop and recover the bills into the underlying rejection recovery portion 18b by opening the bottom plate 30 of the traveling bucket 17. In this manner, the movements of the traveling bucket for the recovery operation differ from those in the rear maintenance machine 11A merely symmetrically, and the reset-bill recovery operation itself is the same. Therefore, similar functional effects are attained even when the apparatus is utilized as the front maintenance machine 11B.


[0152]
FIG. 27 shows the lock mechanism 39 of the traveling bucket 17. The lock mechanism 39 is so constructed that a ratchet 40 is mounted on a bucket drive shaft 28d which is coaxial with the lower bearing 28b and pinion 28c of the traveling bucket 17, and that a lock lever 42 whose inclining fulcrum is an arbor 41 provided at one end thereof is disposed at a position opposing to the ratchet 40. The traveling bucket 17 is locked in such a way that a lock pawl 42a protruded centrally of the lock lever 42 is brought into engagement with any of ratchet pawls 40a formed in the outer peripheral surface of the ratchet 40, whereby the rotation of the bucket drive shaft 28d is stopped to stop the relative movement between the ratchet 40 and the lower bearing 28b as well as the pinion 28c.


[0153] Besides, in unlocking the traveling bucket, as shown in FIG. 28, a solenoid 43 mounted in the retreating direction of the lock lever 42 is turned ON to attract and drive this lock lever in the retreating direction, whereby the lock lever 42 is retracted against the bias of a biasing spring 44 mounted so as to urge this lock lever onto the lock side thereof. Thus, the lock pawl 42a held in urged engagement with the ratchet pawl 40a is separated to unlock the traveling bucket.


[0154]
FIG. 29 shows the drive transmission structure of the traveling bucket 17. A driving gear G1 is coupled to the main shaft of the bucket self-propelling motor M1 which is mounted on the rear side of the traveling bucket 17, and this driving gear G1 meshes with a driven gear G2 on the bucket drive shaft 28d so as to transmit power.


[0155] Besides, the traveling bucket 17 is locked at a predetermined stop position by the locking operation of the lock mechanism 39, whereby this traveling bucket 17 can be reliably stopped at the stop position. Therefore, the stop position of the traveling bucket 17 does not fluctuate or shift unexpectedly, and this traveling bucket can be stably stopped at the desired connection position. Also, when unlocked, the traveling bucket 17 can be allowed to travel again.


[0156]
FIG. 30 shows a shutter mechanism 45 for closing the ejection opening 17b of the traveling bucket 17. The shutter mechanism 45 includes an upper shutter 46 which horizontally advances or retreats relative to the ejection opening 17b that is open in the upper surface of the traveling bucket 17, thereby to open or close the ejection opening 17b, and a rack 47 which is formed in the lower surface of the upper shutter 46. The shutter driving gear G3 of a shutter drive motor M3 is brought into mesh with the rack 47 through a pinion 48. Thus, the upper shutter 46 is moved to advance or retreat in the horizontal direction, thereby to perform the operation of opening or closing the ejection opening 7b.


[0157] A shutter lock mechanism 49 is juxtaposed with the shutter mechanism 45. The distal end of a solenoid lever 51 coupled to a shutter solenoid 50 enters a snug fit hole 52 formed in the lower surface of the upper shutter 46 lying at the closed position thereof, whereby the upper shutter 46 is unitarily locked. The solenoid lever 51 functions to keep a locking operation in such a way that the upper shutter 46 is snugly fixed at the closed position by the bias of a biasing spring 53 in the stretching direction thereof, the spring 53 being wound round the lever 51. In contrast, when the shutter solenoid 50 is turned ON, the solenoid lever 51 is consequently attracted and moved against the bias of the biasing spring 53, and it is separated from the snug fit hole 52 of the upper shutter 46, thereby to be unlocked.


[0158] In this manner, the upper surface of the traveling bucket 17 can be closed by the upper shutter 46. As shown in FIG. 31, therefore, bills can be transferred without being scattered outside, by closing the upper shutter 46 during the transfer of the traveling bucket 17, and they are allowed to be collectively taken out, by opening the upper shutter 46 at the position of the bill take-out port 15. Further, in this case, the upper shutter is opened only at the predetermined position of the bill take-out port 15, and it is closed at any other position. Therefore, a high security is held in taking the bills out of the traveling bucket 17.


[0159]
FIG. 32 shows another embodiment of a traveling bucket which is utilized for multiple functions. The traveling bucket 321 has, not only the function of collectively transporting bills A from the hand-over position Pm thereof under the central part of an upper unit 323, to a bill take-out port 322 on the front side of the upper unit, but also the bucket recovery function of using the traveling bucket itself as a recovery box.


[0160] The traveling bucket 321 receives the plurality of bills A from below at the bill hand-over position Pm and piles the received bills, and thereafter, it collectively transports the piled bills to the bill take-out port 322 located on the front side.


[0161] In contrast, in a case where the bills piled by the traveling bucket 321 are collectively recovered on account of reset bills or forgotten bills not taken up, the traveling bucket 321 itself is singly moved to a bucket take-out position 324 located on the rear side of the upper unit 323. On this occasion, the traveling bucket 321 to be moved to the bucket take-out position 324 is singly guided to the bucket take-out position 324, and a clerk in charge can detach the traveling bucket 321 out of the upper unit 323 and handle the detached bucket. Thus, the traveling bucket 321 can be used instead of a detachable recovery box.


[0162] Besides, since the traveling bucket 321 can be detachably attached, the apparatus can be constructed by assembling a plurality of traveling buckets 321, . . . . By way of example, when three traveling buckets 321, . . . are set at the bucket take-out position 324 as shown in FIG. 32, three times of automatic recovery uses can be attained.


[0163] Also in this case, in the collective transportation from the hand-over position Pm, the traveling bucket 321 can transfer the bills A without being scattered out side therefrom, by closing an upper shutter 325 located at the upper surface of this traveling bucket 321.


[0164]
FIG. 33 shows an embodiment of a traveling-bucket movement mechanism 326. The traveling-bucket movement mechanism 326 moves each individual traveling bucket from the hand-over position Pm located centrally of the upper unit, to the bucket take-out position 324 by utilizing a robot hand 327. The robot hand 327 is disposed in, for example, the upper unit 323, and its hand portion 328 being rotatable and vertically movable grasps a coupling protrusion 329 protruded on the upper surface of the traveling bucket 321 and changes the vertical state of the traveling bucket 321 into a horizontal state suited for the detachment, so as to move this bucket to the bucket take-out position 324.


[0165] As stated above, there is disposed each traveling bucket which is adapted to pile bills and to move with the bills piled therein, and which has the lower opening for allowing the bills to be received or ejected from below, and the upper opening for allowing the bills to be taken out from above. Since this traveling bucket is connected to and associated with any of a lower bill reception position, a lower bill recovery position and an upper bill take-out position, the bills can be collectively transferred from the traveling bucket to the target processing position. Therefore, a bill transfer time period can be shortened to attain a shorter transaction processing time period. Moreover, since a transfer length per bill shortens, the occurrence rate of jams is simultaneously lowered.


[0166] Regarding the corresponding relationships between this invention and the constructions of the foregoing embodiments, the medium processing apparatus of this invention corresponds to the bill processing apparatus 11 of each embodiment, and


[0167] similarly,


[0168] cartridges correspond to the first-fourth cartridges C1-C4,


[0169] media correspond to the bills A,


[0170] a medium take-out port corresponds to the bill take-out port 15,


[0171] a lower opening corresponds to the reception opening 17a,


[0172] an upper opening corresponds to the ejection opening 17b,


[0173] a medium reception position and a medium hand-over position correspond to the bill reception port 16 and the hand-over position Pm, respectively,


[0174] medium recovery positions correspond to the first-fourth recovery positions P1-P4,


[0175] a medium take-out position corresponds to the issuance position P5,


[0176] transfer means corresponds to the bucket self-propelling motor M1 and the traveling rails 27,


[0177] control means corresponds to the CPU 101,


[0178] a lower shutter corresponds to the bottom plate 30,


[0179] opening/closing means for the lower shutter corresponds to the mode changeover motor M2,


[0180] opening/closing means for an upper shutter corresponds to the shutter mechanism 45,


[0181] movement means corresponds to the traveling-bucket movement mechanism 326, and


[0182] locking or unlocking means for a traveling bucket corresponds to the lock mechanism 39, but


[0183] this invention shall be applicable on the basis of technical ideas defined in the claims and shall not be restricted only to the constructions of the foregoing embodiments.


[0184] According to this invention, a traveling bucket can be moved in a state where media are piled therein, and hence, the media can be collectively transferred by transferring the traveling bucket to any position, so that a medium transfer time period can be shortened to attain a shorter transaction processing time period, and a transfer length per medium shortens, so that the occurrence rate of jams is simultaneously lowered.


[0185] Industrial Applicability


[0186] This invention can be applied to cash dispensers and automated teller machines (ATMs) which are installed in banking organs.


Claims
  • 1) A medium processing apparatus wherein a medium delivered from a cartridge is guided to an identification section and identified thereby, and the medium is guided to an external take-out port and subjected to an ejection operation when the medium is identified to be capable of being issued, whereas the medium is subjected to a recovery operation into an internal recovery box when the medium is identified to be incapable of being issued or utilization of the issuance is stopped, comprising: a traveling bucket which piles the media and moves in a state where the media are piled therein, and which has a lower opening for allowing the media to be received or ejected from below, and an upper opening for allowing the media to be taken out from above; and transfer means for connecting said traveling bucket to and associating it with any of a lower medium reception position, a lower medium recovery position and an upper medium take-out position.
  • 2) A medium processing apparatus as defined in claim 1, wherein said transfer means includes control means for stopping said traveling bucket at the desired connection and association position.
  • 3) A medium processing apparatus as defined in claim 1, wherein a medium hand-over position at which the media delivered from the cartridge are handed over to said traveling bucket is set at an intermediate part of a transfer path of said transfer means.
  • 4) A medium processing apparatus as defined in any of claims 1-3, comprising a lower shutter which opens and closes the lower opening of said traveling bucket, and shutter opening/closing means for opening said lower shutter when said traveling bucket is connected to and associated with the lower medium recovery position.
  • 5) A medium processing apparatus as defined in any of claims 1-4, comprising an upper shutter which opens and closes the upper opening of said traveling bucket, and shutter opening/closing means for opening said upper shutter when said traveling bucket is connected to and associated with the upper medium take-out position.
  • 6) A medium processing apparatus as defined in any of claims 1-5, comprising movement means for closing any shutter of said traveling bucket, and for moving said traveling bucket to a bucket take-out position.
  • 7) A medium processing apparatus as defined in any of claims 1-6, comprising means for locking or unlocking said traveling bucket at a stop position.
Priority Claims (1)
Number Date Country Kind
2000-180012 Jun 2000 JP
PCT Information
Filing Document Filing Date Country Kind
PCT/JP01/05045 6/13/2001 WO