JP4746194B2 - Banknote deposit and withdrawal device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a banknote deposit / withdrawal apparatus that is incorporated in an ATM (automatic deposit / payment / payment machine) or the like and automatically performs banknote deposit / withdrawal processing.
[0002]
[Prior art]
A banknote deposit / withdrawal device that automatically performs banknote deposit / withdrawal processing is incorporated in ATMs and money changers installed in banks and the like. Generally, this type of banknote depositing / withdrawing apparatus includes a depositing / withdrawing unit that deposits / withdraws banknotes, an identification unit that identifies the type and authenticity of banknotes, and an intermediate pool unit that accumulates deposited banknotes and pays out banknotes And a banknote storage unit that stores banknotes, and a banknote transport unit that transports banknotes between the above-described units.
[0003]
A plurality of the banknote storage units are usually provided for storing banknotes by ticket type, and each banknote storage unit for each type of bill is a cassette-type safe. It is required to carry it with detachment.
[0004]
[Problems to be solved by the invention]
However, in the conventional banknote depositing / withdrawing device, in addition to the vault-type safe, a reject safe for storing rejected banknotes discovered during the withdrawal process is configured independently, and the reject safe is installed in the main body of the device together with other safes. Because it is arranged in parallel, it is not allowed to increase the size of the main body of the device, management becomes complicated as the number of safes increases, and the bill conveyance path in the main body of the device becomes longer, and the deposit / withdraw processing speed There is a disadvantage that decreases.
[0005]
The purpose of the present invention is not to allow the reject banknote storage part to be configured as a cassette-type safe that can be removed from the apparatus body, but to reduce the number of safes and facilitate management. An object of the present invention is to provide a banknote depositing / dispensing apparatus that enables downsizing of the apparatus main body and further speeds up the depositing / dispensing process by shortening the banknote transport path.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a banknote depositing / withdrawing apparatus according to the present invention comprises a banknote depositing / withdrawing apparatus comprising a safe detachable with respect to the apparatus main body, a banknote depositing / dispensing unit for depositing / dispensing transaction banknotes in the safe, A reject banknote storage unit for storing reject banknotes found during gold processing is integrated with the transaction banknote storage unit for storing transaction banknotes horizontally, while the reject banknote storage unit for rejecting banknotes vertically. Configured to house . Such a configuration not only allows the placement efficiency of both storage units in the safe to be reduced, but also allows the configuration to bring the transport ports of both storage units closer to each other. And the connection with the apparatus main body side banknote conveyance path can be performed efficiently.
[0007]
Moreover, it is preferable that the safe includes a door that opens and closes the storage units at the same time. In this case, not only is it possible to reduce the number of parts and simplify the structure by sharing the doors of both storage units, but it is possible to improve workability in collecting and replenishing banknotes.
[0008]
Moreover, it is preferable that the said reject banknote accommodating part is arrange | positioned vertically at the one side part of the said transaction banknote accommodating part, and is equipped with the carry-in port of a reject banknote in the upper part . In this case, the transaction banknote storage unit and the reject banknote storage unit can be efficiently arranged to reduce the size of the safe, and the banknote entrance for the reject banknote can be provided at a high position. The conveyance path can be shortened.
[0009]
Moreover, the said apparatus main body is equipped with the intermediate | middle pool part which accumulate | stores a deposit | payment banknote or pays out a withdrawal banknote above the said transaction banknote storage part, and deposits / withdraws to the said transaction banknote storage part via the said intermediate | middle pool part. It is preferable to store transaction banknotes . In this case, it is possible to shorten the bill transport path of the instrumentation Okimoto side.
[0010]
Further, the apparatus main body has a front Symbol intermediate pool portion banknote vertical conveying portion through the transfer port leading to the entrance of the reject banknote storage part of, and a gate for switching the paper money transport path in the transport opening neighborhood of the intermediate pool portion It is preferable to provide. In this case, not only is it possible to shorten the bill conveyance path on the apparatus main body side, but also the bill conveyance efficiency can be improved and the deposit / withdrawal process can be speeded up.
[0011]
Moreover, it is preferable that the said reject banknote accommodating part is equipped with the reject banknote carrying-in mechanism which conveys a reject banknote only in a carrying-in direction. In this case, the structure can be simplified as compared with the case where the reject banknote is carried in / out, and the banknote conveyance efficiency on the apparatus main body side can be improved.
[0012]
Moreover, it is preferable that the said reject banknote carrying-in mechanism carries in by the power of the vertical conveyance motor which conveys the said banknote vertical conveyance part. In this case, not only is it unnecessary to separately secure a power source for the reject banknote carry-in mechanism, but also the transfer operation of the reject banknote carry-in mechanism and the vertical transport unit can be accurately synchronized.
[0013]
Moreover, it is preferable that the said reject banknote accommodating part is equipped with the reject banknote accumulation | storage mechanism which accumulate | stores the reject banknote carried in. In this case, it is possible not only to increase the banknote storage efficiency of the reject banknote storage unit, but also to prevent jamming in the reject banknote storage unit.
[0014]
Moreover, it is preferable that the reject banknote accumulating mechanism performs an accumulating operation with the power of a gate solenoid that switches the gate. In this case, since it is not necessary to separately secure a power source for the reject banknote stacking mechanism, the number of parts can be reduced and the control can be simplified.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on the illustrated embodiment. FIG. 1 is an internal side view of a banknote depositing and dispensing device according to an embodiment of the present invention. As shown in this figure, the banknote depositing / withdrawing apparatus 1 includes a depositing / dispensing unit 100 provided on the uppermost front side, an identification unit 200 provided behind the depositing / dispensing unit 100, and the depositing / dispensing unit 100. A 1,000 yen intermediate pool section 300A provided below, a 1000 yen safe 400A detachably mounted below the 1000 yen intermediate pool section 300A, and five thousand provided below the 1000 yen safe 400A. The intermediate pool portion 300B for yen, the 5,000 yen safe 400B that is detachably mounted below the intermediate pool portion 300B for 5,000 yen, and the 10,000 yen intermediate provided below the 5,000 yen safe 400B A pool unit 300C, a 10,000-yen safe 500 detachably mounted below the 10,000-yen intermediate pool unit 300C, a banknote transport unit 600 that transports banknotes between the units, the safe 400A, 400B, 500 And a controller 700 provided towards. In addition, since each said intermediate | middle pool part 300A, 300B, 300C is the same structure, the code | symbol A, B, C is abbreviate | omitted in description common to each intermediate | middle pool part 300A, 300B, 300C. In addition, among the safes 400A, 400B, and 500, the 1000-yen safe 400A and the 5000-yen safe 400B have the same structure, and thus the symbols A and B are omitted in the description common to the safes 400A and 400B.
[0016]
The deposit / withdrawal unit 100 is a part that receives the banknote P from the depositing user and passes the banknote P to the withdrawal user. The depositing / dispensing unit 100 according to the present embodiment recognizes the banknote P that has been batch-inserted into the depositing / dispensing port 101 at the time of depositing, and the captured bills P are identified via the transport port 103. A process of sequentially feeding to the unit 200, a process of accumulating the reject banknotes P sent from the deposit / rejection port 104 below the partition plate 102, a process of discharging the accumulated reject banknotes P from the deposit / withdrawal port 101, and At the time of withdrawal and collective return, a process for stacking banknotes P fed from the identification unit 200 via the transport port 103 on the upper side of the partition plate 102 and a process for discharging the accumulated banknotes P from the deposit / withdrawal port 101. And is configured to do
[0017]
The identification unit 200 is a part for identifying the authenticity and type of the deposited banknote P or the banknote P to be withdrawn. The identification unit 200 of the present embodiment includes a light transmission type identification sensor (not shown) that detects the light transmission pattern of the banknote P and a magnetic type identification sensor that detects the magnetic pattern of the magnetic material printed on the banknote P (see FIG. (Not shown).
[0018]
The intermediate pool unit 300 is a part that temporarily holds the deposited banknote P and feeds out the withdrawal banknote P from the safes 400 and 500. The intermediate pool unit 300 according to the present embodiment includes a process (stacking mode) for stacking banknotes P fed from the transport port 301 at the time of depositing, and a process (storage mode) for storing the stacked banknotes P in the safes 400 and 500. In addition, at the time of collective return, a process of sequentially feeding the accumulated banknotes P from the transport port 301 (return mode) is performed. Further, at the time of withdrawal, the banknotes P in the safes 400 and 500 are transported. Are configured to perform processing (feeding mode) that sequentially feeds from the beginning.
[0019]
The safes 400 and 500 are portions for storing the deposited banknote P or the banknote P for withdrawal. The safes 400 and 500 according to the present embodiment include upper openings 401 and 501 that allow the inside of the safe to communicate with the intermediate pool unit 300, shutters 402 and 502 that open and close the upper openings 401 and 501, and banknote handlers put in and out the banknotes P. Banknote entry / exit ports 403 and 503, doors 404 and 504 for opening / closing the banknote entry / exit ports 403 and 503, and door locking mechanisms 405 and 505 for locking the doors 404 and 504. Further, the 10,000 yen safe 500 according to the present embodiment also serves as a reject safe for storing the reject banknote P discovered at the time of withdrawal, and a reject banknote storage unit 506 constituting the reject safe is integrated on the front end side. ing.
[0020]
The banknote transport unit 600 transports a deposited banknote P from the identification unit 200 to each intermediate pool unit 300, and transports the deposited reject banknote P from the identification unit 200 to the deposit rejection port 104 of the deposit / withdrawal unit 100. Deposit / reject transport processing, withdrawal / payment processing (or return transport processing) for banknotes P to be withdrawn (or returned) from each intermediate pool unit 300 to the identification unit 200, and withdrawal / rejection bills P for reject banknote storage This is a portion that performs a withdrawal / rejection transfer process for transferring to 506. The banknote transport unit 600 according to this embodiment stores a reject banknote from the lateral transport unit 601 that extends from the rear part of the identification unit 200 to the vicinity of the transport port of the 1,000 yen intermediate pool unit 300A and from the vicinity of the transport port of the 1000 yen intermediate pool unit 300A. From the vertical transfer unit 602 reaching the unit 506, the thousand yen gate 603A, the five thousand yen gate 603B and the 10,000 yen gate 603C for switching the transfer route in the vicinity of the transfer port of each intermediate pool unit 300, and the intermediate part of the horizontal transfer unit 601 A deposit reject transfer unit 604 that reaches the deposit reject port 104 of the deposit / withdrawal unit 100 and a deposit reject gate 605 that switches the transfer path at the start end of the deposit reject transfer unit 604 are configured.
[0021]
The control unit 700 is a part that receives commands from the host and detection signals from various sensors and operates various actuators in response to the inputs. The control unit 700 of the present embodiment includes a program for performing a deposit process, a storage process, a collective return process, and a withdrawal process, and the outline of each process will be described below.
[0022]
The deposit process is executed in response to receipt of a deposit command. When the deposit command is received, the shutter 105 that opens and closes the deposit / withdrawal port 101 of the deposit / withdrawal unit 100 is opened, and the insertion of the bill P is waited. When a bundle of banknotes P is inserted into the deposit / withdrawal port 101, the bundle of inserted banknotes P is taken into the upper side of the partition plate 102 and then sequentially fed out to the identification unit 200 one by one. The type is identified. When it is identified that the bill P is a genuine note, the gate 603 corresponding to the bill type is opened, and the bill P is sent to the corresponding intermediate pool unit 300 via the horizontal conveyance unit 601 and the vertical conveyance unit 602. , Are collected here. On the other hand, when the bill P is identified as a fake bill, the deposit reject gate 605 is opened, and the bill P is sent to the lower side of the partition plate 102 via the lateral transport unit 601 and the deposit reject transport unit 604, It is collected here. When all the banknotes P are paid out from the deposit / withdrawal unit 100, the presence / absence of the deposit-rejected banknote P (the lower stacked banknote P of the partition plate 102) is determined. If there is no deposit reject banknote P, the deposit process is terminated as it is, while if there is a deposit reject banknote P, the deposit reject banknote P is returned from the deposit / withdrawal port 101 and then the deposit process is terminated.
[0023]
When the storage command is received after the deposit process is completed, the storage process is executed, and the banknotes P accumulated in each intermediate pool unit 300 are stored in the respective safes 400 and 500. On the other hand, when the return command is received after the payment process is completed, the batch return process is executed. In the collective return process, the banknotes P accumulated in each intermediate pool unit 300 are sequentially fed out, and the fed out banknotes P are sent to the deposit / withdrawal unit 100 through the vertical conveyance unit 602, the horizontal conveyance unit 601, and the identification unit 200. And collected here. Thereafter, the accumulated banknotes P are returned from the deposit / withdrawal port 101, and the collective return process is completed.
[0024]
The withdrawal process is executed in response to receiving a withdrawal command. When the withdrawal command is received, the banknotes P in the respective safes 400 and 500 are sequentially fed out as many as necessary, and the fed out banknotes P pass through the vertical conveyance unit 602, the horizontal conveyance unit 601 and the identification unit 200, and the deposit / withdrawal unit 100. And is collected here. Thereafter, the accumulated banknotes P are withdrawn from the deposit / withdrawal port 101, and the withdrawal process is completed. Further, when a withdrawal reject banknote P (fake banknote, damaged banknote, multi-feed banknote, etc.) is found during the withdrawal process, the withdrawal rejection process is executed, and the withdrawal banknote P is sent to the reject banknote storage unit 506. Is stored.
[0025]
Next, details of the safe 500 (400), which is a main part of the present invention, will be described together with the intermediate pool unit 300. FIG. As shown in FIG. 1, the chassis 2 of the banknote depositing / dispensing apparatus 1 is formed with a three-stage safe mounting chamber 3 that opens to the left. A unitized intermediate pool unit 300 is assembled to the upper part of each safe mounting chamber 3, and each intermediate pool unit 300 has a vertical conveyance motor (not shown) that is a power source of the vertical conveyance unit 602. Power is transmitted through the input gear 302. Thereby, in each intermediate | middle pool part 300, it becomes possible to perform banknote conveyance (accumulation conveyance and feeding conveyance) synchronized with the vertical conveyance part 602. FIG.
[0026]
2 is an internal plan view of the intermediate pool section, and FIG. 3 is an internal left side view of the intermediate pool section. As shown in these drawings, the intermediate pool unit 300 is arranged in a position opposite to the front end portion of the belt conveyance body 303 that performs accumulation conveyance and feeding conveyance of the banknotes P in synchronization with the vertical conveyance section 602. A pickup roller 304 that is provided and picks up the leading end of the bill P during feeding and conveyance, a separation roller 305 that is provided in the vicinity of the pickup roller 304 and facilitates separation of the bill P during feeding and conveyance, and an intermediate between the belt conveyance body 303. A bill sensor mechanism 306 that detects the feeding of the bills P, a bill brake mechanism 307 that is built in the rear portion of the belt carrier 303 and brakes the lower bills P during the feeding and conveyance, and the belt carrier 303. The butterfly 30 is arranged on both the left and right sides of the banknote and stacks the banknotes P one by one at the time of stacking and conveying. And a push-down lever 309 that pushes down the bill P at a predetermined timing during stacking and feeding and a butterfly solenoid 310 that operates the butterfly 308 and the push-down lever 309. And a separation solenoid 311 for operating the banknote brake mechanism 307.
[0027]
On the other hand, the safe 500 (400) is detachably mounted in the space below the intermediate pool section 300 in each safe mounting chamber 3. As shown in FIG. 1, a safe locking mechanism 4 is provided on the front side of each safe mounting chamber 3. The safe lock mechanism 4 includes a rotary lock lever 4a that protrudes and retracts in response to a lock operation and an unlock operation, and the lock lever 4a that protrudes with the lock operation engages with the safe 500 (400). As a result, removal of the safe 500 (400) is restricted. Further, as shown in FIG. 4, a lift drive mechanism 5 is provided on the back side of each safe mounting chamber 3 (the right side surface of the chassis 2). The lift drive mechanism 5 includes a lift motor 6, a cam 7 that rotates in accordance with forward / reverse driving of the lift motor 6, a cam pin 8 that comes into contact with the cam 7 from above, and the cam pin 8 that is attached to a support shaft 9 a. A cam arm 9 is supported as a fulcrum so as to be movable up and down, and the cam pin 8 is moved up and down by the rotation of the cam 7 according to the forward and reverse drive of the lift motor 6. The cam pin 8 protrudes into the safe mounting chamber 3 through a long hole 10 having an arc shape (the center of the arc is the support shaft 9a) formed in the chassis 2, and in the safe mounting state, the cam pin 8 of the safe 500 (400). It enters the inside of the safe 500 (400) through the long hole 500a having the same shape formed on the side surface.
[0028]
As described above, the safe 500 (400) includes the upper opening 501 (401) that allows the inside of the safe to communicate with the intermediate pool unit 300, the shutter 502 (402) that opens and closes the upper opening 501 (401), and the banknote handler. Banknote loading / unloading port 503 (403) for loading / unloading banknote P, door 504 (404) for opening / closing the banknote loading / unloading port 503 (403), and door locking mechanism 505 (405) for locking the door 504 (404). ) And a bill storage mechanism is formed in the inside. Further, the 10,000 yen safe 500 is integrally provided with the transaction banknote storage unit 507 that houses the banknote storage mechanism, and the reject banknote storage unit 506 described above. The banknote storage mechanism and reject banknote storage unit 506 of a certain 10,000 yen safe 500 will be described in detail.
[0029]
5 is a left side view of the transaction banknote storage unit, FIG. 6 is a right side view of the transaction banknote storage unit, and FIG. 7 is a rear view of the transaction banknote storage unit. As shown in these drawings, the banknote storage mechanism includes a stage 508 that raises and lowers the banknote P below the belt conveyance body 303, a pantograph type lifting mechanism 509 that supports the stage 508 so as to be raised and lowered, and the pantograph type lifting mechanism. A pantograph energizing spring (torsion coil spring) 510 that energizes the mechanism 509 in the upward direction, a linear elevating mechanism 512 that supports the pantograph base 511 of the pantograph elevating mechanism 509 so as to be movable up and down, and the linear elevating mechanism 512 First and second linear biasing springs (tensile coil springs) 513 and 514 for biasing in the upward direction, a pair of left and right lift arms 515 provided at the upper end of the safe 500, and a pair of lift arms 515 And a lift blade 516 provided at the tip portion so as to be pivotable up and down.
[0030]
8 is a left side view showing a linear and pantograph lower limit state, FIG. 9 is a left side view showing a linear upper limit and a pantograph lower limit state, and FIG. 10 is a left side view showing a linear and pantograph upper limit state. As shown in these drawings, the pantograph type lifting mechanism 509 includes a plurality of links 517 and 518 interposed in a crossing manner between the stage 508 and the pantograph base 511, and the intersections of the links 517 and 518. And a single pivot 519 for pivotally connecting the two to each other. That is, one end of each link 517, 518 is rotatably connected to the stage 508 or the pantograph base 511, while the other end is front and back to the long holes 511a, 508a formed in the pantograph base 511 or the stage 508. It is connected so as to be movable, and the expansion and contraction operation is allowed by the link movement along the long holes 511a and 508a, and accordingly, the stage 508 moves up and down while maintaining a parallel posture. The pantograph urging spring 510 is provided at the pivot fulcrum of the link 518, and urges the stage 508 in the upward direction by applying the urging force in the standing direction of the link 518.
[0031]
The linear lift mechanism 512 includes a slide cylinder 520 that is integrally provided at the rear end of the pantograph base 511, a single guide shaft 521 that slides the slide cylinder 520 in the vertical direction, and a fulcrum for the guide shaft 521. And a pair of guide rollers 522 for restricting the rotation of the pantograph base 511. The guide roller 522 is provided at the right front end portion and the left rear end portion of the pantograph base 511, and regulates the rotation of the pantograph base 511 by rolling on the inner wall surface of the safe 500. Further, as shown in FIGS. 11 to 13, the first and second linear biasing springs 513 and 514 are interposed between the front end portion of the pantograph base 511 and the fixing portion of the safe 500, The intermediate portion is suspended by fixed pulleys 523, 524, and 525, and the spring force acts in the direction of pulling up the pantograph base 511, that is, in the direction of raising the stage 508.
[0032]
As shown in FIGS. 8 and 9, the lifting / lowering operation range of the stage 508 is divided into a linear lifting / lowering operation range and a pantograph lifting / lowering operation range. In the linear lift operation range, the pantograph lift mechanism 509 moves up and down along the guide shaft 522 while maintaining the contracted state. This action sets the biasing force of the pantograph biasing spring 510 to be smaller than that of the linear biasing springs 513 and 514, and the reduction operation of the pantograph lifting mechanism 509 by the pressing force of the stored bill P is lowered by the linear lifting mechanism 512. This occurs by preceding the action. Thereby, the occupation space of the stage raising / lowering mechanism in the transaction banknote storage part 507 is minimized. As shown in FIG. 10, in the pantograph raising / lowering operation range, the pantograph base 511 maintains a stopped state at the upper limit position of the guide shaft 521, and the stage 508 is raised / lowered only by the expansion / contraction operation of the pantograph type lifting mechanism 509. In the pantograph ascending / descending operation range, the stage 508 is allowed to rise to the outside of the safe 500 and to a position where it comes into contact with the belt conveyance body 303.
[0033]
The pair of left and right lift arms 515 are arranged in a distributed manner on the left and right sides of the stage 508 in plan view, and their base ends are integrally connected via a rotation support shaft 515a. An operation plate 526 is integrally provided on the right lift arm 515, and an engagement groove 526a is formed at the tip thereof. The engaging groove 526a engages with the cam pin 8 of the lift driving mechanism 5 when the safe 500 is mounted on the apparatus main body, and interlocks the lift arm 515 with the lift driving mechanism 5. As a result, the lift arm 515 moves up and down according to the forward / reverse drive of the lift motor 6. Furthermore, the operation plate 526 is provided with a pulley 527. As shown in FIGS. 11 to 13, an intermediate portion of the second linear biasing spring 514 is suspended from the pulley 527, and the spring force acts in a direction of pulling down the pulley 527. Therefore, not only is it possible to bias the lift arm 515 downward using the second linear biasing spring 514, but when the lift arm 515 is lifted, the intermediate portion of the second linear biasing spring 514 is pulled up, It becomes possible to increase the lifting force of the stage 508.
[0034]
The lift blade 516 is attached to the tip end portion of the lift arm 515 so as to overlap the both ends in the width direction of the bill P (stage 508) in plan view. The front / rear center position of the lift blade 516 is located at the tip of the lift arm 515 via a first support shaft 528 that faces in the left-right direction (banknote width direction) and a second support shaft 529 that faces in the front-rear direction (banknote length direction). It is supported by. The lift blade 516 rotates freely with the first support shaft 528 as a fulcrum, and the lift blade 516 is maintained in a substantially parallel posture by the pressing reaction force of the bill P or the contact resistance with the bill P. On the other hand, the rotation of the lift blade 516 with the second support shaft 529 as a fulcrum has an upper limit at a position that is substantially parallel when viewed from the front, and is normally positioned at the upper limit by the biasing force of the return spring 530. When the lift arm 515 is located at the lower limit, the lift blade 516 is stored in the safe 500 in a substantially straight posture with the lift arm 515.
[0035]
14 is a front view showing the operation of the lift blade in the accumulation mode, FIG. 15 is a front view showing the operation of the lift blade in the return mode and the storage mode, and FIG. 16 is a front view showing the operation of the lift blade in the storage mode. It is. As shown in FIG. 14, in the stacking mode, the lift blade 516 moves to the stacking position A while pressing both ends of the stored bills P. The deposited banknotes P are sequentially carried between the belt carrier 303 and the lift blade 516 and accumulated on the lift blade 516. Thereby, the lift blade 516 functions as a partition member that partitions the deposited banknote P and the stored banknote P. When the deposited banknote P is returned according to the customer's request after the accumulation process is completed, the lift blade 516 is raised to the return position B as shown in FIG. At this time, the deposited banknote P on the lift blade 516 is pressed against the belt conveyance body 303 and is sequentially carried out from the intermediate pool section 300 as the belt conveyance body 303 is fed and conveyed. On the other hand, after the stacking process is completed, when the deposited banknote P is stored in the safe 500 according to the deposit confirmation operation, the lift blade 516 rises to the upper limit position C beyond the return position B. In the middle of this, when the rising of the deposited banknote P is restricted by contact with the belt conveyance body 303, the lift blade 516 retreats downward against the return spring 530 and traces the side surface of the deposited banknote P. However, it moves above the deposited banknote P, and then returns to the parallel posture by the urging force of the return spring 530. Then, as shown in FIG. 16, the lift blade 516 that has been raised to the upper limit position C is inverted and lowered to push down the deposited banknote P and the stored banknote P and store them in the safe 500. In the payout mode, the lift blade 516 moves up to the vicinity of the upper limit position C. At this time, the stored banknotes P on the stage 508 are pressed against the belt conveyance body 303 and are sequentially carried out from the intermediate pool unit 300 as the belt conveyance body 303 is fed and conveyed.
[0036]
17 is an internal front view of the reject banknote storage unit, FIG. 18 is an internal plan view of the reject banknote storage unit, FIG. 19 is an internal left side view of the reject banknote storage unit, and FIG. 20 is an internal view of the reject banknote storage unit. It is sectional drawing. The reject banknote storage unit 506 shown in these figures is integrated vertically with the front surface of the transaction banknote storage unit 507, and stores the withdrawal reject banknote P vertically. The banknote insertion / removal port 531 of the reject banknote storage unit 506 is opened to the left side in the same manner as the transaction banknote storage unit 507, and the banknote extraction ports 503 and 531 of the storage units 506 and 507 are simultaneously opened and closed by the door 504. . In addition, a carry-in port 532 is opened at the upper end of the reject banknote storage unit 506. When the safe 500 is mounted on the apparatus main body, the carry-in port 532 is connected to the lower end of the vertical transport unit 602 and the upper side thereof. The banknotes are selectively conveyed to the reject banknote storage unit 506 based on the switching operation of the 10,000 yen gate 603C provided in the vicinity. Next, the reject banknote carry-in mechanism 533 and the reject banknote accumulation mechanism 534 provided in the reject banknote storage unit 506 will be described.
[0037]
The reject banknote carry-in mechanism 533 includes a pair of transport rollers 535 a and 535 b that are opposed to the front and rear under the carry-in port 532. A roller shaft 536 that supports one of the transport rollers 535a extends to the right side and is linked to a vertical transport motor (not shown) via a timing belt (not shown). Is driven synchronously with the vertical conveyance unit 602 by the driving force of. A one-way clutch 537 is interposed between the roller 535a and the roller shaft 536, so that the roller 535a is rotationally driven only in the reject bill carry-in direction. The other transport roller 535b is a driven roller and rotates in the carry-in direction according to the driving of the roller 535a.
[0038]
The reject banknote accumulation mechanism 534 includes a first stage 539 that is supported movably back and forth via a stage arm 538, a second stage 541 that is supported movably back and forth via a parallel link 540, and the second stage 541. A pair of butterflies 542 provided to be pivotable back and forth on both left and right sides, link operating arms 544 provided integrally at both ends of the parallel link support shaft 543, and the butterfly 542 in conjunction with the operations of the link operating arms 544 Is configured to include a butterfly operating arm 545 that operates in a direction opposite to the second stage 541 and an interlocking arm 546 that links the link operating arm 544 to the gate solenoid 606 for the 10,000 yen gate.
[0039]
21A is an internal right side view of the reject banknote storage unit showing the reject banknote carrying-in state, and FIG. 21B is an internal right side view of the reject banknote storage unit showing the reject banknote accumulation state. As shown in FIG. 21B, when the 10,000 yen gate 603C is open, the stored banknote P is sandwiched between the two stages 539 and 541. When the 10,000 yen gate 603C is closed in order to store the withdrawal reject banknote P discovered during the withdrawal process in the reject banknote storage unit 506, as shown in FIG. While the stage 541 is separated from the first stage 539, the butterfly 542 rotates in the opposite direction to press the left and right ends of the stored banknote P, thereby securing the carry-in space for the withdrawal reject banknote P. Thereafter, the roller 535 a takes over the withdrawal reject banknote P from the lower end of the vertical transport unit 602, and the withdrawal reject banknote P is carried in between the butterfly 542 and the second stage 541. Thereafter, when the 10,000 yen gate 603C is opened, the butterfly moves to the front side of the incoming bill so as to jump up both ends of the incoming bill P, and on the contrary, the second stage 541 moves backward, and the incoming bill P Are accumulated in the stored bills P. This completes one cycle of the withdrawal rejection process.
[0040]
As described above, according to the present embodiment, in the banknote deposit / withdrawal apparatus 1 including the safe 500 that is detachable from the apparatus main body, the banknote storage unit 507 that stores the deposit / withdrawal transaction banknote P in the safe 500, A reject banknote storage unit 506 that stores the reject banknote P discovered at the time of gold processing is integrally provided. Thus, while the reject banknote storage unit 506 is configured as a cassette-type safe 500 that can be removed from the apparatus main body, the number of safes can be reduced and management can be facilitated. It is possible to reduce the size of the main body, and further, it is possible to shorten the bill conveyance path (vertical conveyance unit 602) and increase the speed of the deposit / withdrawal process.
[0041]
In addition, since the safe 500 includes a door 504 that opens and closes the storage units 506 and 507 at the same time, the door 504 of the storage units 506 and 507 can also be used to reduce the number of parts and simplify the structure. The workability in collecting and replenishing banknotes P can be improved.
[0042]
The transaction banknote storage unit 507 stores the transaction banknotes P in the horizontal direction, while the reject banknote storage unit 506 stores the reject banknotes P in the vertical direction, so that the storage units 506 and 507 in the safe 500 are arranged. Not only is it possible to increase the efficiency and reduce the size of the safe 500, but it is possible to arrange the storage ports 506 and 507 closer to each other. Connection with the transport unit 602) can be performed efficiently.
[0043]
In addition, the reject banknote storage unit 506 is arranged vertically on one side of the transaction banknote storage unit 507, and includes a carry-in port 532 for the reject banknote P at the top thereof, so that the transaction banknote storage unit 507 and the reject banknote are provided. Since the storage unit 506 can be efficiently arranged to reduce the size of the safe 500, and the carry-in port 532 for the rejected bill P can be provided at a high position, the bill conveyance path (vertical conveyance unit 602) on the apparatus main body side. Can be shortened.
[0044]
Further, the apparatus main body passes through the intermediate pool unit 300 that accumulates the deposited banknotes P or feeds out the withdrawal banknotes P above the transaction banknote storage unit 507, and the reject banknotes via the transport port 301 of the intermediate pool unit 300. Since the vertical conveyance unit 602 that reaches the carry-in port 532 of the storage unit 506 and the gate 603 that switches the banknote conveyance route in the vicinity of the conveyance port 301 of the intermediate pool unit 300 are provided, the bill conveyance route on the apparatus main body side can be shortened. In addition, it is possible to increase the bill conveyance efficiency and speed up the deposit / withdrawal process.
[0045]
In addition, the reject banknote storage unit 506 includes a reject banknote carry-in mechanism 533 that transports the reject banknote P only in the carry-in direction, and therefore simplifies the structure as compared with the case where the reject banknote P is carried in / out. In addition, the bill conveyance efficiency on the apparatus main body side can be improved.
[0046]
Further, since the reject banknote loading mechanism 533 is carried in by the power of a vertical transport motor that transports the vertical transport unit 602, it is not necessary to separately secure a power source of the reject banknote transport mechanism 533, It is possible to accurately synchronize the transport operation of the reject banknote carry-in mechanism 533 and the vertical transport unit 602.
[0047]
In addition, the reject banknote storage unit 506 includes a reject banknote stacking mechanism 534 that stacks the rejected banknote P that has been carried in. Therefore, the banknote storage efficiency of the reject banknote storage unit 506 can be increased. The occurrence of a jam at 506 can be prevented.
[0048]
Further, since the reject banknote stacking mechanism 534 performs stacking operation with the power of the gate solenoid 606 for switching the gate 303, it is not necessary to secure a separate power source for the reject banknote stacking mechanism 534. Reduction and simplification of control can be achieved.
[0049]
The embodiment of the present invention has been described with reference to the drawings. However, the present invention is not limited to the matters shown in the above-described embodiments, and it is obvious that changes, improvements, etc. can be made based on the description of the scope of claims.
[0050]
【The invention's effect】
As described above, according to the present invention, the reject banknote storage unit is configured as a cassette-type safe that can be removed from the apparatus main body, and the number of safes can be reduced to facilitate management. In addition, it is possible to reduce the size of the apparatus main body, and further, it is possible to shorten the bill conveyance path to increase the speed of the deposit / withdrawal process.
[Brief description of the drawings]
FIG. 1 is an internal side view of a banknote deposit and withdrawal device.
FIG. 2 is an internal plan view of an intermediate pool section.
FIG. 3 is an internal left side view of an intermediate pool portion.
FIG. 4 is a left side view of the lift drive mechanism.
FIG. 5 is a left side view of a transaction banknote storage unit.
FIG. 6 is a right side view of a transaction banknote storage unit.
FIG. 7 is a rear view of a transaction banknote storage unit.
FIG. 8 is a left side view showing a linear and pantograph lower limit state.
FIG. 9 is a left side view showing a linear upper limit and a pantograph lower limit state.
FIG. 10 is a left side view showing a linear and pantograph upper limit state.
FIG. 11 is a left side view showing the operation of the linearly biased ammunition in the lift blade lowered state.
FIG. 12 is a left side view showing the operation of the linearly biased ammunition in the lift blade ascending state.
FIG. 13 is a rear view showing the operation of the linear biasing ammunition.
FIG. 14 is a front view showing the operation of the lift blade in the accumulation mode.
FIG. 15 is a front view showing the operation of the lift blade in the return mode and the storage mode.
FIG. 16 is a front view showing the operation of the lift blade in the storage mode.
FIG. 17 is an internal front view of a reject banknote storage unit.
FIG. 18 is an internal plan view of a reject banknote storage unit.
FIG. 19 is an internal left side view of the reject banknote storage unit.
FIG. 20 is an internal cross-sectional view of a reject banknote storage unit.
FIG. 21A is an internal right side view of a reject banknote storage unit showing a reject banknote carrying-in state, and FIG. 21B is an internal right side view of the reject banknote storage unit showing a reject banknote accumulation state.
[Explanation of symbols]
P banknote 1 banknote depositing / withdrawing apparatus 100 depositing / withdrawing unit 200 identification unit 300 intermediate pool unit 400 safe 500 safe 501 upper opening 502 shutter 503 banknote loading / unloading port 504 door 505 door locking mechanism 506 reject banknote storage unit 507 transaction banknote storage unit 531 Mouth 532 Carriage entrance 533 Reject banknote carry-in mechanism 534 Reject banknote stacking mechanism 534 Roller 537 One-way clutch 539 First stage 541 Second stage 542 Butterfly 600 Banknote transport section 601 Horizontal transport section 602 Vertical transport section 603 Gate 606 Gate solenoid 700 Control section

Claims (9)

In the banknote depositing and dispensing device having a safe detachable from the device body,
In the safe,
A transaction banknote storage section for storing deposit / withdrawal transaction banknotes;
And a reject banknote storage unit for storing reject banknotes discovered during the withdrawal process ,
The banknote depositing / dispensing apparatus according to claim 1, wherein the transaction banknote storage unit stores transaction banknotes horizontally, while the reject banknote storage unit stores reject banknotes vertically .   The bill depositing / withdrawing apparatus according to claim 1, wherein the safe includes a door that opens and closes both the storage units simultaneously. The banknote deposit / withdrawal according to claim 1 or 2, wherein the reject banknote storage unit is arranged vertically on one side of the transaction banknote storage unit, and includes a reject banknote entrance at an upper part thereof. apparatus. The apparatus main body includes an intermediate pool unit that accumulates deposited banknotes or pays out withdrawal banknotes above the transaction banknote storage unit, and deposits / withdraws transaction banknotes into the transaction banknote storage unit via the intermediate pool unit. The bill depositing / withdrawing apparatus according to claim 1, wherein the bill depositing / withdrawing apparatus is stored . The apparatus main body, it comprises front SL and the bill vertical transport section through the transfer port leading to the entrance of the reject banknote storage portion of the intermediate pool portion, and a gate for switching the paper money transport path in the transport opening neighborhood of the intermediate pool portion The bill depositing / withdrawing apparatus according to claim 4 . The banknote depositing / dispensing device according to claim 5 , wherein the reject banknote storage unit includes a reject banknote loading mechanism that transports the reject banknote only in the loading direction. The banknote depositing / dispensing apparatus according to claim 6 , wherein the reject banknote loading mechanism performs a loading operation with a power of a vertical conveyance motor that conveys the banknote vertical conveyance unit. The banknote depositing / withdrawing apparatus according to any one of claims 5 to 7, wherein the reject banknote storage unit includes a reject banknote stacking mechanism that stacks the reject banknotes that have been carried in. The banknote depositing / withdrawing apparatus according to claim 8 , wherein the reject banknote stacking mechanism performs stacking operation by power of a gate solenoid that switches the gate.

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