GB2128594A - Sorting banknotes - Google Patents

Abstract

Banknotes are sorted into a first group fit for reuse, and a second group unfit for reuse, the notes being fed to a fit not collecting device (5D) and an unfit note collecting device (5E). The unfit note collecting device (5E) includes a "half-wrapping" device (6D) for "half-wrapping" or banding the unfit notes and a destroying unit (8) for preventing the unfit from being reused. The unfit notes are delivered selectively to the banding device (6D) or the destroying unit (8). Counterfeit and reject notes are diverted prior to sorting to cassette bins with a classification card and the band around the original banknote bundle. The fit notes are sorted into 'different', 'fine' and 'correct' notes prior to banding and wrapping. Prior to sorting, the band around the banknote bundle is removed by bending the bundle downwardly so that the band separates from the surface of the bundle and is engaged by grippers. The bundle is then bent upwardly so that the band on the other side of the bundle separates from the bundle and is cut. Conveyor belts then remove the banknotes leaving the cut band in the grippers, (Figures 8-15). <IMAGE>

Description

SPECIFICATION Paper sheet processing apparatus The present invention relates to a paper sheet processing apparatus from which fed paper sheets are taken out one by one for prescribed judgment, are classified into first and second groups, and are finally collected.

As an example of the paper sheet processing apparatus of this type, a bank note processing apparatus is conventionally known in which a batch of, e.g., 100 bank notes, half-wrapped with a paper band, are untied and taken out one by one for judgment, and are classified into correct notes (first paper sheets) and unfit notes (second paper sheets) to be collected in their corresponding collecting sections.

The correct notes must be taken out as a bundle from the apparatus once a predetermined number has been collected. As for the unfit notes, some of them are taken out in bundles to be stored, while the others must be destroyed, less they be reused.

The prior art bank note processing apparatuses are not, however, provided with both destruction and banding devices to be used in processing the unfit notes, and are thus poor in versatility and operating efficiency.

Since the present invention has been contrieved in view of the above, it is intended to provide a paper sheet processing apparatus capable of both banding and destroying operations in processing paper sheets, thus allowing for high versatility and operating efficiency.

To attain the above object, a paper sheet processing apparatus according to the present invention is provided with a batch half-wrapping device and a destroying device which are operated selectively.

According to one aspect of the present invention, an apparatus for processing paper sheets for general use, which sheets are withdrawn as required and are classified into two categories, those fit for reuse and those unfit for reuse; which apparatus comprises carry means for carrying the withdrawn paper sheets, pickup means for picking up the paper sheets from the carry means, one by one, judgment means for judging the paper sheets picked up by the pickup means, whereby the paper sheets are classified into two groups, a first group fit for reuse, and a second group unfit for reuse, first collecting means for collecting the first group of paper sheets, second collecting means for collecting the second group of paper sheets, said second collecting means including therein batch halfwrapping means for half-wrapping and banding the second group of paper sheets collected in the second collecting means, and destroying means for preventing the second group of paper sheets collected in the second collecting means from being reused, said batch half-wrapping means and destroying means being attached to the second collecting means, and conveyor means provided between the pickup means and the second collecting means and adapted to deliver the second group of paper sheets, selectively, to the batch half-wrapping means or the destroying means.

This invention can be more fully understood from the following detailed description when taken in conjunction with the accompanying drawings, in which: Figs. 1 A, 1 B and 1 C are a plan view, a vertical side sectional view, and a front view, respectively, of a bank note processing apparatus as one embodiment of the paper sheet processing apparatus according to the present invention; Figs. 2A and 28 are front and rear perspective views of the bank note processing apparatus, respectively; Fig. 2C is a perspective view showing a modification of a batch feeder; Fig. 3 is a perspective view of a batch feeder of one embodiment; Fig. 4 is a vertical side sectional view of a batch feeding stand; Fig. 5 is a vertical side sectional view of a batch extruding section; Fig. 6 is a vertical sectional view of a unmachinable batch removing section;; Fig. 7 is a side view of a rocking mechanism for rollers; Figs. 8A and 8B are a vertical front sectional view and a vertical side sectional view of a band cutting section, respectively; Figs. 9A, 10A, 1 1A, 12A, 13Aand 14Aare vertical front sectional views for schematically illustrating the band cutting/removing operation; Figs. 9B, 10B, 11B, 12B, 138. 148 and 15 are vertical side sectional views for schematically illustrating the band cutting/removing operation; Fig. 1 6 is a perspective view of a rejected note collecting section; Figs. 1 7A and 1 78 are side views for schematically illustrating the bundle packaging operation; Fig. 1 7C is a perspective view of a packaged bundle; and Fig. 18 is a front view showing an example of an indication mode on a CRT of an external operating device.

There will now be described in detail a bank note processing apparatus as one embodiment of the paper sheet processing apparatus according to the present invention, which processes bank notes as paper sheets.

Figs. 1 A to 1 C schematically show the bank note processing apparatus, in which Fig. 1 A is a plan view of the apparatus, Fig. 1 B is a vertical side sectional view, and Fig. 1C is a front view.

The bank note processing apparatus, which is installed in a bank note issuing agency, classifies circulating bank notes withdrawn from city banks into four categories, i.e., correct notes, unfit notes, counterfeit notes, and unmachinable notes, and bundles only the correct notes so that they are returned to the city banks for recirculation. The bank note processing apparatus comprises a batch feeder 1, a takeout device 2, a conveyor/sorter 3, a judgment unit 4, a sorter/collector 5, a batch half-wrapping device 6, a bundle halfwrapping device 7A, a bundle packaging device 78, a destroying device 8, a control unit 9, and an operating panel section 10.

In one embodiment, a "batch" P consists of 100 banded notes, while a "bundle" includes 10 banded batches. The "correct notes" are defined as notes which are judged normal and valid and are to be returned from the issuing agent for reuse. The "unfit notes" are defined as notes, which, although judged normal and valid, are unfit for reuse and are to be destroyed at the issuing agency. The "counterfeit notes" are defined as notes which are judged neither normal nor valid (unidentifiable notes are regarded as invalid). The "unmachinable notes" are defined as notes which cannot be judged due to the superposition, skew or short pitch (too short a distance between two adjacent notes in a conveyor path for the following note to be processed with ease).The "counterfeit notes" and "unmachinable notes" are also referred to as "rejectable (or rejected) notes", since they are to be rejected from the bank note processing apparatus. "Fine notes" are defined as those "correct notes" which are relatively fine and clean.

The sorter/coilector 5 comprises a rejected note collecting section 5A, different sheet collecting section 5B, a fine note collecting section 5C, a correct note collecting section 5D, and an unfit note collecting section 5E. The conveyor/sorter 3 comprises five conveyor/sorter sections 3A to 3E in the conveyor path, corresponding to the collecting sections 5A to 5E of the sorter/collector 5, respectively. Gates GT are provided at the respective diverging portions of the conveyor/sorter sections 3A to 3E.The collecting sections 5A to 5E are provided with conventional recovery wheels FW1 to FW5, respectively, which take out fed bank notes one by one to collect them in their corresponding collecting boxes (BINs). Among these collecting boxes (BINs), a counterfeit note collecting box BIN1 and an unmachinable note collecting box BIN2 are disposed independently at the rejected note collecting section 5A, lying one upon the other. Collecting boxes BIN3 to BIN6 are arranged at the other collecting sections 5B to 5E, respectively.

The batch half-wrapping device 6 is provided with batch half-wrapping sections 6A to 6D arranged under the collecting boxes BIN3 to BIN6, respectively. The bundle half-wrapping device 7A is disposed under the batch half-wrapping section 6C which underlies the correct note collecting section 5D. The bundle half-wrapping unit 7A has a window 7A1 through which the bank notes are delivered to the bundle packaging device 78 at the back of the bundle half-wrapping device 7A.

The takeout device 2 comprises a collecting section 2A in which are collected a plurality of loose bank notes, a delivery roller 28 for picking up one by one the bank notes collected in the collecting section 2A, a group of conveyor rollers 2C for transferring the bank notes picked up by the delivery roller 2B, and an inspection section 2D provided in the conveyor path for inspecting the bank notes for unmachinable characteristics (e.g., superposition, skew, short pitch, etc.). The takeout device 2 is prevented from picking up the individual bank notes of a subsequent batch before the processing of a preceding batch is completed.As shown in Fig. 1 C, the operating panel section 10 is provided with an inlet portion 1 OA for fed batches, an operating portion 1 OB including a ten-key unit above the inlet portion 1 OA, a monitoring CRT 1 OC, and a cassette outlet opening 1 OD. The bundle packaging device 78 has an outlet opening 7B1.

The sections containing the aforementioned devices are formed into individual modules. As shown in Fig. 1A, a feeding module M1 detachably fitted with a feeding stand 11, a judgment module M2, first and second collecting modules M3 and M4, scrapping module M5, and the bundle packaging device 78 are arranged so that they can be attached to or detached from one another. Thus, these modules can optionally be increased or decreased in number depending on applications and functions required. As shown in Fig. 1 B, the feeding module M1 contains therein the rejected note collecting section 5A and the takeout device 2 arranged vertically, and the control unit 9 behind them. The judgment module M2 contains the judgment unit 4 and the first and second conveyor/sorter sections 3A and 38.The first collecting module M3 contains the different sheets collecting section 5B, the fine note collecting section SC, the batch half-wrapping sections 6A and 6B, and the third and fourth conveyor/sorter sections 3C and 3D. The second collecting module M4 contains the correct note collecting section 5D, the unfit note collecting section 5E, the batch half-wrapping sections 6C and 6D, the fifth conveyor/sorter section 3E, and the shredders 8A and 88 as first and second destroying devices. The scrapping module M5 contains a scrap box 8C.

Fig. 2A is a partially disassembled perspective view of the bank note processing apparatus, Fig.

28 is a rear perspective view of the apparatus, and Fig. 2C is a perspective view showing the principal part of a modification of the batch feeder. As shown in Fig. 2A, the modules M1 to M4 have their respective doors. For example, the first and second shredders 8A and 8B and the bundle half-wrapping device 7A can be connected and contained in the module M4 with its door open. Disposed near the bank note processing apparatus is an external operating device 100.

whereby a rejected note cassette CST containing rejected notes processed at the rejected note collecting section 5A is taken out in order to inspect the rejected notes for the cause of rejection. The external operating device 100 comprises a desk 1 OOA, an input unit 1 OOB including a ten-key unit, a CRT 100C, a printer 1 000, and keyboard 1 OOE, the units 1 00B to 1 OOE being set on the desk 1 OOA. A cover 1 OF for loose note insertion is provided on the flank of the module M 1. The bank note processing apparatus is adapted to be in a loose note processing mode when the cover 1 OF is open.As shown in Fig. 2B, a pipe containing portion 101 containing a cooling pipe, etc., is attached to the back of the bank note processing apparatus.

Fig. 2C shows the modification of one embodiment, in which the batch feeding stand 11 is replaced by a feeding stand 1 which is provided with a belt conveyor capable of longitudinally feeding a plurality of batches at a time. In this modification, a lid 11A' on the top of the feeding stand 11' is lifted when batches or bundles of bank notes are fed manually. In this case, the batches or bundles of bank notes automatically transferred flow in the direction of arrow A to be fed into the bank note processing apparatus. After the processing, the bundles of bank notes are carried in the direction of arrow B to be discharged to the outside through an outlet opening 1 OE at the lower portion of the module M1.

The construction of various parts of the bank note processing apparatus will now be described in detail.

As shown in Fig. 3, the batch feeder 1 comprises the batch feeding stand 11, a batch extruding section 12, an unmachinable batch removing section 13, and a band cutting section 14. The batch feeding stand 11 and the batch extruding section 12 constitute an example of batch takeout means for taking out and feeding one by one those batches which are each formed of a predetermined number of (e.g., 100) banded bank notes. The band cutting section 14 is an example of band cutting means for cutting bands wound around the batches taken out by the batch takeout means.

As shown in Fig. 4, the batch feeding stand 11 comprises a frame 11A having a slanted top surface and a groove thereon, a first belt 11 8 adapted to transfer the batches in the longitudinal direction (at right angles to the drawing plane) along the slanted top surface, a second belt 11 C extending at right angles to one end portion of the first belt 1 8 for regulating the batches in position, rollers 1 D and 1 E wound with the belts 1 1B and 11 C, respectively, and a drive belt 1 1F, a set of gears 1 1G and a motor 1 1F for driving the rollers 1 D and 11 E.

As shown in Fig. 5, the batch extruding section 1 2 comprises a slanted floor 1 2A on the extension of the belt 1 8, a backup plate 12B capable of moving from the lower end portion of the floor 1 2A along the slope, a ball screw shaft 1 2C attached to the backup plate 12B, a motor 1 2D for driving the ball screw shaft 1 2C, a guide 12E for downwardly guiding the batches P of bank notes forced out from the forward end portion of the floor 1 2A, belts 1 2F and 1 2G carrying the batches dropped thereon, and a screening plate 1 2H attached to the rear end portion of the ball screw shaft 1 2C.The batch extruding section 12 further comprises a first sensor S1 for detecting a position of the screening plate 12H to determine the initial position of the backup plate 128, a second sensor S2 for detecting a passage of the screening plate 1 2H to determine the terminal end position of the backup plate 128, a third sensor S3 adapted to be actuated by an actuator AT which rocks as the batches are forced out and which delivers a step signal for the motor 1 2D, a fourth sensor S4 adapted to be actuated as a light beam from a light source LP is intercepted by the dropped batch and to deliver an output signal for determining the timing for the start of the drive for the conveyor belts 1 2F and 1 2G, and a fifth sensor S5 adapted to detect the existence of the batches over the backup plate 128 and to deliver an output signal to determine the timing for stopping the motor 1 2D.

According to the batch feeder 11 constructed in this manner, 10 batches places on the batch feeding stand 11 are carried onto the backup plate 128 as the belts 1 1B and 1 C are driven by the rotation of the driving rollers 11 D and 11 E.

The moment the batches cross the sensor S5 the driving rollers 11 D and 1 E and the belts 11 B and 1 C are stopped, and the transfer of the batches is stopped. Then, as the backup plate 128 is actuated to push the batches obliqueiy upward, the uppermost batch slides down the guide 1 2E on the other side of the floor 1 2A. Thus, the batches are fed one by one. As the motor 1 2D rotates, the shaft 1 2C moves forward to cause the backup plate 1 28 to force out each batch. When the batch moves forward and the light-receiving portion of the sensor S3 is darkened, the motor 1 2D stops. Thereafter, the motor 1 2D rotates intermittently, so that the batches fall one after another from the floor 1 2A onto the belts 1 2F and 1 2G.The moment each dropped batch screens the sensor S4, the motor 1 2D stops, and the belts 1 2F and 1 2G start to move. Thus, the motor 1 2D rotates intermittently at regular time intervals to feed the batches one by one. The sensor S2 is located in a position such that all the 10 batches can be fed. Thus, the motor 1 2D rotates as the screening plate 1 2H at the rear end portion of the shaft 1 2C crosses the sensor S2, and stops when the plate 1 2H crosses the sensor S1.The moment the motor 1 2D stops, the rollers 1 1 D and 1 1 E of the feeding stand 11 start to rotate, and another ten batches P are carried onto the backup plate 128 by running of the belts 1 1B and 11 C. This cycle of operation is repeated. If no batch is detected by the sensor S5 near the backup plate 128 within a given time, the belts 11B and 1 1 C go on moving, and the CRT or a buzzer makes an indication to urge an operator to place batches on the feeding stand 11.

Referring now to Fig. 6, the construction of the unmachinabie batch removing section 13 and the band cutting section 14 will be described in detail. The unmachinable batch removing section 1 3 comprises a delivery table 1 3A for delivering the extruded batches, a set of guide rollers 1 3B for guiding the batches, a metal piece detecting member 1 3C in the middle of the conveyor path, a rocking mechanism 1 30 for rocking the guide rollers 138, a rotary solenoid 13K over the guide rollers 138, a lever 1 3L nested with the guide rollers 13B and adapted to strike down to the side of an outlet opening 1 3N the batches rocked by the rotary solenoid 13K and delivered, a basket 1 3M set under the outlet opening 1 3N, and an obverse/reverse detector 1 3R for detecting the obverse or reverse of the delivered batch of bank notes.

The rocking mechanism 1 3D for the guide rollers 1 38 is constructed as shown in Fig. 7.

Namely, the rocking mechanism 1 30 comprises a frame 1 3E rotatably supporting the guide rollers 13B. a rotating shaft 13S mounted on the frame 1 3E by means of one-way clutches 1 3P and rotatably supporting the frame 1 3E, a group of gears 1 3Q including one set of bevel gears fixed to one end of the guide rollers 138 and the other set of bevel gears fixed to the middle portion of the shaft 13S, meshing with the gears of the first mentioned set, a pulley 1 3F attached to one end of the shaft 13S, a drive motor 1 3H, a belt 1 3G passed around the pulley 1 3F and the pulley of the motor 1 3H, a stopper 1 31 for determining the initial position of the frame 1 3E, and a plunger solenoid 1 3J for rocking the stopper 1 31 to release the frame 1 3E. When the rocking mechanism 13D is in operation, the stopper 131 is removed from the frame 1 3E by the energization of a plunger solenoid 1 3J, so that the guide rollers 1 38 rock in the counterclockwise direction of Fig.

6 by gravity. In returning the guide rollers 13B to the initial position, they are rocked clockwise by the drive of the motor 1 3H.

According to the unmachinable batch removing section 13, the batch on the belts 1 2F and 1 2G of the batch feeder 1 is checked for the existence of clips, setting pins or other metal pieces therein by the metal piece detector 1 3C as it passes through the detector 1 3C. Then, the batch is delivered from the belts 1 2F and 1 2G to the rollers 138. The belts 1 2F and 1 2G and the rollers 138 stop when the movement of the batch to a predetermined position is detected by a sensor (not shown). If a metal piece or pieces are found in the batch by the metal piece detector 13C, the rotary solenoid 13K is excited after the belts 1 2F and 1 2G and the rollers 13B are stopped. As a result, the batch is discharged into the basket 1 3M outside the apparatus by the lever 1 3L.The moment the solenoid 13K is excited, the next batch is fed onto the belts 1 2F and 1 2G. The discharged batch is checked by the operator, and is fed again into the apparatus to be processed thereby. The batch undergoes the same processing if it is found to be reversed by the obverse/reverse detector 1 3R.

In the present embodiment, as described above, the unmachinable batch is defined as a batch which is accompanied with a metal piece or pieces or is fed reversed. The metal piece detecting member 1 3C and the obverse/reverse detector 1 3R constitute an example of unmachinable batch detecting means. Those batches which are judged free from any metal piece by the metal piece detector 1 3C are delivered to the band cutting section 14.

As shown in Figs. 8A and 88, the band cutting section 14 comprises an upper conveyor section 1 4A including a plurality of rollers 14A3, a driving roller 1 4A1, a moving roller 1 4A2 attached to a rocking lever 14A4, and a belt 14A5; a lower conveyor section 148 including a plurality of rollers 1483, a driving roller 1481, a moving roller 14B2 attached to a rocking lever 14B4, and a belt 1485;; upper and lower squeezers 14C and 1 4D arranged in the middle of a conveyor path defined between the upper and lower conveyor sections 1 4A and 148 at right angles thereto so that the two squeezers 14C and 14D can approach and move away from each other, a band catch lever 1 4E attached to the upper squeezer 14C, a cutter guide 1 4F formed along the lower squeezer 14D, a band catch pin 1 4G capable of moving horizontally under the band catch lever 14E, a cutter 1 4H movable along the cutter guide 14F, and a backup plate 141 for carrying out the unbanded bank notes.

As shown in Fig. 8A, the upper and lower squeezers 14C and 14D are arranged so that they hold therebetween the other portions of the fed batch P then that portion which is wound with a band Pa. The upper squeezer 14C consists of a pair of rods 14C1 and 14C2. The band catch lever 1 4E is rockably attached to the one rod 14C1, and is urged in the clockwise direction of Fig. SA by an urging member (not shown). The position shown in Fig. 8A is defined as a regulated position of the lever 14E. The band catch pin 1 4G is movably held in a groove formed in the bottom portion of the rod 1401.The lower squeezer 14D consists of a pair of rods 14D1 and 1402, and the cutter guide 1 4F is provided between the two rods 14D1 and 1402. The cutter 14H is movably contained in one rod 1401. The backup plate 141 is nested with the belt 1485 and can move vertically.

The band cutting section 14 of this construction is operated as shown in Figs. 9A to 1 5. A batch P supplied from the batch feeder 1 stops at the position sandwiched between the upper and lower squeezers 14C and 140 in the middle of the conveyor path between the upper and lower conveyor sections 1 4A and 148, as shown in Fig. 98. As shown in Fig. 9A, the batch P is held between the rods 14C1,14C2,14D1 and 14D2 at those portions thereof which are free from the wrapping band Pa. Then, as shown in Figs. 1 OA and 1 OB, the upper and lower squeezers 14C and 14D both move down so that the batch P is curved to project downward. As a result, a gap is formed between the upper surface of the batch P and the top portion of the wrapping band Pa, and the band Pa touches the bottom face of the band catch lever 14E. At the same time, the rocking levers 1 4A4 and 14B4 of the upper and lower conveyor sections 1 4A and 148 rock counterclockwise as indicated by the arrows of Fig. OB to facilitate the shift of the belts 14A5 and 1485, and promote smooth squeezing action.

Thereafter, as shown in Figs. 11 A and 11 B, the band catch pin 14G, contained in one rod 14C1 of the upper squeezer 14C, advances to the right as indicated by the arrow of Fig. 11 A and locates under the top portion of the wrapping band Pa.

Thus, the top portion of the wrapping band Pa is nipped by the band catch lever 1 4E and the band catch pin 14G. Then, as shown in Figs. 1 2A and 128, the upper and lower squeezers 1 4C and 1 4D both move up so that the batch P is curved to project upward. At this time, the top portion of the wrapping band Pa is held between the band catch lever 14E and the band catch pin 14G, and its bottom portion abuts against the cutter guide 1 4F causing the wrapping band Pa to be strained.At this point, as shown in Figs. 1 3A and 13B, the cutter 14H, contained in one rod 14D1 of the lower squeezer 14D, advances to the right as indicated by the arrow of Fig. 1 3A along the groove of the cutter guide 14F, and touches and cuts the bottom portion of the wrapping band Pa engaging the upper surface of the cutter guide 14F.

Thereafter, as shown in Figs. 1 4A and 148, only the lower squeezer 1 4D moves down to resume its initial position. The cut wrapping band Pa is left held between the band catch lever 14E and the band catch pin 1 4G attached to one rod 1 4C 1 of the upper squeezer 14C. At this time, the rocking levers 1 4A4 and 1484 of the upper and lower conveyor sections 1 4A and 14B rock clockwise as indicated by the arrows of Fig. 148 to resume the original state.Finally, as shown in Fig. 1 5, the upper and lower conveyor sections 1 4A and 14B are driven to convey the unbanded bank notes, and the awaiting backup plate 141 enters the conveyor path to receive the bank notes delivered thereto. The bank notes received by the backup plate 1 41 are transferred as the backup plate 141 moves up, and are delivered to the collecting section of the takeout device 2. The cut wrapping band Pa is carried into the rejected note collecting section 5A, which will be described in detail below.

As shown in Fig.16, the rejected note collecting section 5A comprises an unmachinable note collector 50 including the unmachinable note collecting box BIN2, a counterfeit note collector 51 including the counterfeit note collecting box BIN 1, a classification card issuing unit 52, and a cassettes collector 53. In the unmachinable note collector 50, unmachinable notes P3 delivered by the conveyor are collected in piles. The unmachinable note collector 50 comprises a conveyor belt 50B having a plurality of upright partition plates 50A and moving horizontally at right angles to the course of the unmachinable notes P3, and a conveyor belt driving motor 50C.The unmachinable notes P3 collected on the conveyor belt 50B are moved to a predetermined position with the aid of a sensor (not shown) for detecting the movement of the conveyor belt 50B and a positioning sensor S6 which detects performations bored through one side edge portion of the conveyor belt 50B at regular intervals. The upright partition plates 50A on the conveyor belt 50B are arranged at regular intervals. Each two adjacent partition plates 50A may define two walls of the unmachinable note collecting box BIN2 extending along the course of the unmachinable notes P3. The conveyor belt 50B moves at predetermined pitches.After the conveyor belt 50B is moved by a pitch, the two walls of the unmachinable collecting box BíN2 are defined by another adjacent pair of upright partition plates 50A.

The counterfeit note collector 51 is constructed so that counterfeit notes P4 delivered by the conveyor belts are received for deceleration by curved grooves defined between the adjacent vanes of the recovery wheel FW1 rotating at low speed in the same direction as the course of the counterfeit notes P4, and are then collected in piles. In the counterfeit note collector 51, as in the correct and unfit note collecting sections 5D and SE, the curved grooves of the recovery wheel FW1 rotate in synchronism with the counterfeit notes P4 delivered to the recovery wheel FW1, so that the counterfeit notes P4 can securely enter the individual curved grooves of the wheel FW1 The counterfeit notes P4 in the curved grooves of the recovery wheel FW1 are turned at about 1800.Thus, the notes P4 are prevented from advancing by a fixed plate 51 A facing the forward ends of the notes P4. As the recovery wheel FW1 rotates, therefore, the counterfeit notes P4 are gradually drawn out from the curved grooves to be collected uniformly in the counterfeit note collecting box BIN 1.

A bottom plate 51 8 of the counterfeit note collecting box BIN1 can move horizontally. As a motor 51C is rotated, the bottom plate 518 is moved to the outside of the counterfeit note collecting box BIN 1 with the aid of an arm 51 D so that the collected counterfeit notes P4 can be discharged into the unmachinable note collecting box BIN2 which is located under the counterfeit note collecting box BIN 1. Thus, the counterfeit notes P4 collected in the counterfeit note collecting box BIN1 are stacked on the unmachinable notes P3 collected in the unmachinable note collecting box BIN2.

The wrapping band Pa cut by the band cutting section 14 is placed in the counterfeit note collecting box BiN1 for each corresponding batch being processed currently. Namely, the wrapping band Pa is put on the bottom plate 51 B of the counterfeit note collecting box BIN 1 before the first counterfeit note P4 of the processed batch is collected. Thus, the wrapping band Pa is first placed in the counterfeit note collecting box BíN1, and the counterfeit notes P4 are then stacked on the wrapping band Pa.

The classification card issuing unit 52 is intended to discharge one by one classification cards CAD piled vertically in a card magazine 52A onto the collected counterfeit notes P4. The classification cards CAD have their respective identification numbers thereon. As a takeout roller 528 disposed under the classification cards CAD makes one revolution, the forward end of a classification card CAD reaches discharge rollers 52C. The classification card CAD is discharged as the discharge rollers 52C rotate. While the classification card CAD is being discharged, the identification number on the classification card CAD is read by a reading head (not shown) and stored in a magnetic disk in the control unit 9. The discharged classification card CAD is collected in the counterfeit note collecting box BIN1.

The cassette collector 53 is intended to collect the unmachinable notes P3, wrapping bands Pa, counterfeit notes P4, and classification cards CAD on the conveyor belt 50B in a cassette. The cassette collector 53 comprises first and second cassettes CST1 and CST2 arranged side by side, an extruding plate 53A for pushing the bank notes and other sheets on the conveyor belt 50B into the cassette CST1 or CST2, and two pressure plates 53 for thrusting the sheets into their corresponding cassette CST1 or CST2. The use of the paired cassettes CST1 and CST2 and pressure plates 538 enables one to employ the second cassette CST2 when the first cassette CST1 is fille dup. Thus, the time required for cassette replacement is eliminated.

The cassette collector 53 is further provided with a ball screw shaft 53D which is moved longitudinally as a motor 53C is rotated. As the ball screw shaft 53D moves in this manner, the extruding plate 53A fixed to the forward end of the shaft 53D moves in the same direction to force out the bank notes and other sheets. The extruded sheets are positioned by a plate 53H on the cassettes CST1 and CST2. The extruding plate 53A and the cassettes CST1 and CST2 face one another with the conveyor belt 50B between them. Thus, the single extruding plate 53A serves the two cassettes CST1 and CST2.

Each pressure plate 538 is coupled to a motor 53G by means of an arm 53E and a movingplate 53F. The pressure plate 538 is normally on standby over the cassettes CST1 or CST2. As the motor 53G rotates, the pressure plate 538 is moved down through the medium of a chain to thrust the bank notes and other sheets into the cassette CST1 or CST2.

The cassettes CST1 and CST2 are each formed of an open-topped box containing therein a backup plate (not shown) which can stop at any position inside the box by friction. The backup plate is pressed downward as requried by the pressure plate 538 due to the bank notes and other sheets contained in the cassette. When the backup plate reaches its lowermost position, it is detected by a sensor S7 through a hole H1 formed in the first cassette CST1. Thereupon, the sensor S7 delivers a full-up signal. In response to the full-up signal, the other cassette gets ready to receive the sheets.

The operation of the rejected note collecting section 5A will now be described in detail. First, when the wrapping band Pa is cut and removed from the batch P by the batch feeder 1, it is immediately carried into the counterfeit note collecting box BIN1. The batch feeder 1 operates irrespectively of the transfer of the wrapping band Pa, and the 100 bank notes constituting the bath P are taken out one after another by the takeout device 2. Now assume that the batch P includes one counterfeit note and one unmachinable note, and that these rejectable notes are collected in their corresponding collecting boxes BIN 1 and BIN2 after judgment. Then, the counterfeit note P4 is placed in the aforesaid wrapping band Pa in the counterfeit note collecting box BIN 1.When the last or 100th bank note is judged, or when its rear end passes a sensor (not shown) at the entrance of the counterfeit note collecting box BIN 1, the classification card takeout roller 528 of the classification card issuing unit 52 starts to rotate, thereby discharging a classification card CAD onto the counterfeit note P4. Thereafter, the motor 51C for driving the bottom plate 51 B of the counterfeit note collecting box BIN1 rotates, so that the bottom plate 518 is moved to the outside of the counterfeit note collecting box BIN 1 by means of the arm 51 D. Thus, the wrapping band Pa, the counterfeit note P4, and the classification card CAD are stacked on the unmachinable note P3 in the order named.

Then, the conveyor belt driving motor 50C of the unmachinable note collector 50 rotates to actuate the conveyor belt 50B, and the upright partition plates 50A move one pitch. Hereupon, the perforations in the conveyor belt 50B are detected by the sensor S6, and the motor 50C and the belt 50B are stopped. At the same time, the motor 53C for the extruding plate 53A starts to rotate, so that the sheets piled on the conveyor belt, the unmachinable note P3, the wrapping band Pa, the counterfeit note P4, and the classification card CAD (in that order) are pushed out over the first cassette CST1 by the extruding plate 53A. Thereupon, a sensor (not shown) detects that the extruding plate 53A has reached its front position, delivering a detection signal.In response to this detection signal, the motor 53G for the pressure plate 538 starts to rotate. At the same time, the motor 53C for the extruding plate 53A is reversed to restore the extruding plate 53A to its original position, and then stops. When the pressure plate 53B ismoved a predetermined stroke, the motor 53G is reversed to restore the pressure plate 538 is moved a predetermined then stops.

This cycle of operation is repeated, and thus batches and wrapping bands can be classified by the use of classification cards CAD.

When the cassette CST1 is filled up with the bank notes and other sheets, the conveyor belt 50B moves two pitches so that subsequent sheets are collected in the other cassette CST2.

The takeout of the next batch can be started after the detection of the movement of the cnveyor belt 50B without waiting until the aforesaid processing cycle is ended. Naturally, the introduction of the wrapping band Pa into the counterfeit note collecting box BIN1 must be completed by this time.

The conveyor path for the unmachinable notes P3 is longer than that for the counterfeit notes P4.

If neither unmachinable notes nor counterfeit notes are found in a batch, only the wrapping band Pa and classification card CAD are placed in the cassette CST1. Hereupon, the classification card CAD may be put directly into the cassette first or last without loosing its effect. The following effect may be obtained by interposing the wrapping band Pa between the counterfeit notes and unmachinable notes. Even if many counterfeit notes are found, they need not be counted anew, since they have already been counted by the processing apparatus. The unmachinable notes have not, however, been counted yet. Thus, it is necessary only that only the unmachinable notes P3 sorted by the wrapping band Pa be counted anew, so that the cassette processing can be speeded up.The wrapping band Pa can be put directly into the cassette disregarding the speed of the cassette processing.

The batch half-wrapping device 6 is intended to half-wrap in 100-sheet batches the notes which are delivered to the individual collecting sections 5B to 5E and collected in the collecting boxes. For example, a bundling device previously proposed by the present inventor (Japanese Patent Application No. 153546/82, filed on Mar.

31, 1982; U.S. Patent Application Ser. No.

480,902, filed on Mar. 31, 1983, EPC Application No. 83102905-3, filed on Mar.23, 1983) may be used for the batch half-wrapping device 6.

According to this bundling device, 1 00 paper sheets collected on the backup plate of each collecting box are transferred to a carrier by way of the recovery wheels FW2 to FW5, and the carrier is led to a bundling section. Then, a thermal tape is wound around the batch on the carrier, and both ends of the tape are welded together by heat to seal the batch. Thereafter, the carrier is turned and located oShe conveyor path, and isAed so that the sealed batch slides down to the position for the next process.

In the batch half-wrapping section 6C of the batch half-wrapping device 6 right under the correct note collecting section 5D, half-wrapped or banded batches can be fed to the bundle halfwrapping device 7a under the batch halfwrapping section 6C. The batch half-wrapping section 6D corresponding to the unfit note collecting section 5E over the destroying device 8 has two selective operation modes. In one of these modes, the batch half-wrapping section 6D makes a batch. In the other mode, 100 sheets collected in the section 6D are transferred to the conveyor path to be delivered to the destroying device 8 without being half-wrapped.

The bundle half-wrapping device 7A is intended to half-wrap or band 10 batches of correct notes processed at the batch halfwrapping section 6C. For example, a bundling device previously proposed by the present inventor (Japanese Patent Application No.

158531/80, filed on Nov. 11, 1980; U.S. Patent Application Ser. No.318,856, filed on Nov. 6, 1981; British Patent Application No.8133508, filed on Nov. 6, 1981; German Patent Application P 3144820-8, filed on Nov. 11,1981) may be used for the bundle haff-wrapping device 7A.

According to this bundling device, batches delivered from the batch half-wrapping section 6C are placed on a carrier with a high profile.

When 10 batches are stacked on the carrier, the carrier is led to a bundling section, where it is turned for crossed banding. A bundle made in this manner is transferred to the bundle packaging device 78 through the rear window 7A1.

The bundle packaging device 7B is intended to package the bundle half-wrapped by the bundle half-wrapping device 7A. For example, a conventional shrink wrapping device may be used for the bundle packaging device 78. In this shrink wrapping device, as shown in Fig. 1 7A, one end portion of a heat-contractile film F supplied from a roll R is hung down between a facing pair of conveyors CAl and CA2, and the bundle P is placed on the conveyor CAl to be fed thereby in the direction of the arrow of Fig. 1 7A. After the bundle P touches the film F, it is transferred to the other conveyor CA2 to be further advanced thereby, as shown in Fig. 1 78. When three faces of the bundle P are covered with the film F, the bundle P is stopped.Then, the film F is put on the uncovered portion of the bundle P from both upper and lower sides. In this state, the contact portions are fused by heat and joined together.

Then, the fused portion is cut as indicated by twodot chain line in Fig. 1 7C. Thereafter, the corner portions are folded in to complete a packaged bundle PX, as shown in Fig. I 7C.

As shown in Fig. B, the destroying device 8 comprises the two shredders 8A and 8B and the scrap box 8C. The first shredder 8A cuts unfit notes into small pieces, while the second shredder 8B pulverizes the pieces. The pulverized pieces of unfit notes are discharged into the scrap box 8C by, for example, blast.

The control unit 9 comprises a storage device (not shown in detail) such as a magnetic disk for storing the results of inspection and judgment by the inspection section 20 in the takeout device 2 and the judgment unit 4 for each processed batch, a control circuit for controlling the various sections on the basis of outputs from the individual sensors, and a central processing unit (CPU) for timing the control of the individual sections and delivering processing instructions.

Now the operation of the bank note processing apparatus as a whole will be described.

The operator supplies the batch feeder 11 with 1 0 batches as a unit. The supplied batches are taken out one by one and fed to the batch conveyor belts 11 8 and 11 C. The metal piece detector 13C, which is provided in the middle of the conveyor path, detects clips, setting pins or other metal pieces, if any, in a batch or batches.

The batch or batches involving such metal pieces are rejected in advance, since the metal pieces may damage the takeout device or conveyor. The batches P passed through the metal piece detector 1 3C are bended upward or downward to squeeze individual bank notes in order to prevent defective takeout by the takeout device 2 caused by skew, superposition, etc.

The moment the bank notes are squeezed, the wrapping band Pa is cut and removed from the batch P. Thereafter, the 100 untied bank notes are fed to the takeout device 2. Then, the takeout device 2 takes out the bank notes one by one. In doing this, the takeout device 2 is prevented from taking out the individual bank notes of a subsequent batch P before processing of a preceding batch P is completed.

Preferably, the batch feeder 1 is supplied with the bank notes is banded 100-sheet batches.

However, loose bank notes (unbanded notes, such as reprocessed jammed notes) may also be supplied to the batch feeder 1. In supplying the loose notes, the cover 1 OF in front of the takeout device 2 is removed. By doging this, the operation mode of the bank note processing apparatus is automatically switched to a loose note feeding mode. The takeout of the loose notes is started by placing the loose notes on a backup plate under the takeout device serving also to supply and takeout batches, putting on the cover 1 OF, and depressing a feed start switch. If the feed start switch is depressed without putting on the cover 1 OF, it will not be activated. The backup plate is automatically checked for the existence of bank note(s) thereon by depressing the feed start switch. If there is any bank note or notes on the backup plate, the apparatus goes on operating in the loose note feeding mode.If there is no bank note on the backup plate, then the loose note feeding mode is automatically switched to the normal operation mode. The loose notes can naturally be fed from the batch feeding stand 11 is they are previously half-wrapped or banded by the operator.

Directly after the bank notes are taken out, the inspection section 2D inspects the bank notes for skew, superposition and damage. Those notes which are found to be skewed, superposed or damaged as a result of the inspection are collected as unmachinable notes P3 in the unmachinable note collecting box BIN2 without being delivered to the judgment unit 4 for denomination detection, fit/unfit detection, etc.

All the bank notes other than the unmachinable notes P3 are passed through the judgment unit 4, and are collected in the counterfeit note collecting box BIN 1, the different sheet collecting box BIN3, the fine note collecting box BIN4, the correct note collecting box BIN5, and the unfit note collecting box BIN6, depending on the results of judgment.

The collecting boxes BIN3 to BIN6 are in the form of individual modules which can be increased or decreased in number, For example, the different sheet collecting box BIN3 may be eliminated to reduce the size of the apparatus by collecting the different sheets and counterfeit notes together. Alternatively, a collecting box for special application may be added to the modular structure. if there is an automated teller machine (ATM) which is liable to be jammed by ordinary correct notes, it may, for example, be provided with the fine note collecting section 5C for collecting only relatively fine, jam-free notes among other correct notes, or an additional collecting section for collecting only former notes out of a mixture of newly introduced notes and the former notes, or a collecting section for collecting only dog-erased notes to be straightened for reprocessing.

If the bank note processing apparatus jams or experiences other trouble while processing a batch of bank notes, the accuracy of batch counting can not be maintained. In this case, therefore, the bank notes must be removed from the collecting boxes or conveyor path for reprocessing. Accordingly, the different sheet collecting box BIN3 and the fine note collecting box BíN4 are each provided with batch dividing means which can discriminate between individual batches so that the notes to be reprocessed are identified and minimized in number. The batch dividing means may be used as a 100-sheet divider if the bank notes need be divided by hundreds.

Jammed and crumpled notes cannot be resupplied to the apparatus until they are smoothed by hand. For higher processing efficiency, a jammed batch is not resupplied directly after it is removed from the apparatus, and another batch is fed ahead of it. After the crumpled notes are smoothed, the removed batch is fed again into the apparatus. In this case, those notes which remain in the takeout section at the time of jamming are naturally resupplied. At the point of time when the jam is caused, however, the unmachinable note(s) P3 and counterfeit note(s) P4 in the collecting boxes BIN2 and BIN1, along with a classification card and a wrapping band > ~ > assette CST as if processing of a batch were leted.

The magnetic disk of the control unit 5 ,,- data on jams and the existence of bank notes to be resupplied. When the jammed batch is resupplied, unmachinable note(s) P3 and/or counterfeit note(s) P4 involved therein are collected together with a classification card CAD in the cassette CST, as usual. Hereupon, the batch number of the identification number on the classification card CAD used for jammed batch is automatically used for the resupplied batch.

Accordingly, at the time of later cassette processing, both the jammed and resupplied batches can simultaneously be examined, by displaying the batch number or classification card number for the jammed batch on the CRT. Thus, band information can be keyed in for a count check or counterfeit note processing.

The correct notes or unfit notes are sorted by the sorter/collector 5 when they reach 100 in number, and are then half-wrapped or banded into a batch by the batch half-wrapping device 6. At the same time, the date of processing, operator's name and other particulars are put on the batch.

A predetermined number of banded batches, e.g., 10 batches, are collected and half-wrapped into a bundle by the bundle half-wrapping device 7A.

The aforesaid particulars are also put on the bundle. The bundle is packaged by the bundle packaging device 7B, and is discharged onto the conveyor to be transferred thereby to a predetermined position. Two or more of such bundle packaging devices 78 may be connected at the back of the conveyor.

Besides the batch half-wrapping section 6D, destroying devices or shredders 8A and 88 are provided at the counterfeit note collecting section 5E. Thus, 100 bank notes sorted and collected in the counterfeit note collecting section 5E may be either half-wrapped by the half-wrapping device 6 or delivered to the shredders, depending on the designated operation mode. The bank notes or sheets processed by the shredders 8A and 8B are pulverized and pneumatically discharged to some external place. Exhaust gas from a pneumatic system for cooling the apparatus may be utilized for the pneumatic discharge. To reduce to noise produced by the pneumatic feed of the pieces cut by the shredders and the pulverization process, a spiral rotating member may be used for the feed of the pieces.

The operating panel section 10 is provided with switches for operating the apparatus, a tenkey unit for inputting an operator's identification number, and a CRT display for indicating the operating conditions of the apparatus, operating instructions, location of jam, etc. The operating panel section 10 is separated from the mechanical section by partition walls. All the devices or units other than the operating panel section 10 and the batch feeding stand 11 are located inside the partition walls. Accordingly, the noise heard by the operator can be reduced. If you open a door to enter the space inside the partition walls, then a monitoring device will be actuated automatically. Thus, the state of the internal space may be monitored, to improve the security of the apparatus.

Now the processing operation related to the cassettes CST in the rejected note collecting section 5A will be described as foilows. The magnetic disk of the control unit stores all data on the results of counting and detection for each batch of bank notes, such as the numbers of correct notes, unfit notes, unmachinable notes, and counterfeit notes. For the unmachinable notes, the magnetic disk further stores the result of detection or the cause of rejection, such as superposition, skew or short pitch, for each individual note in each batch. For the counterfeit notes, the magnetic disk stores the result of detection, such as wrong pattern or absence of magnetism, watermarks, security thread or fluorescence, for each note. The stored data is matched to the identification number of the classification card.

At least two cassettes CST are set in the bank note processing apparatus. One of the cassettes is for normal use, while the other cassette(s) is are additionally used when the first cassette is full or is removed for any reason. In processing the notes in one cassette while the apparatus is in operation, a cassette processing button is depressed to turn on a lamp corresponding to the cassette in service. At this moment, the scene of processing is automatically shifted to the other cassette, so that the first cassette is allowed to be removed. When an apparatus processing stop button is depressed, a lamp corresponding to the cassette having been used so far glows, indicating that the cassette is ready to be removed. The lamp is put out by depressing an apparatus processing button.

When the cassette is full, the lamp corresponding to this cassette glows. Then, the scene of processing is shifted to the other cassette, and the first cassette is allowed to be removed. If the cassette is not removed after a predetermined number of bank notes are processed after the cassette processing button is depressed or after the cassette is filled, then the lamp flickers to urge the operator to remove the cassette. If the cassette is not removed even after that, the lamp corresponding to the currently used cassette glows after a predetermined number of additional bank notes are processed.

This is a final alarm. In this case, both lamps are put out by removing the cassette corresponding to the flickering lamp and setting in an empty cassette.

If the empty cassette is not installed after the final alarm or the removal of the first cassette, the lamp flickers and the apparatus processing is stopped, when the cassette is full. When the lamp is on or flickering, an alarm may be given to accelerate the cassette processing. The bank notes in the removed cassette are counted and manually judged by another operator at an independent cassette processing table, which operation is different from the apparatus operator.

The removed cassette is processed by the external operating device 100.

The external operating device 100 is provided with a keyboard 1 00E for inputting the identification number of a classification card and the number of bank notes, a CRT 1 00C for indicating processing data on the batch corresponding to the classification card number, and a printer 1 ooh for printing out the processing data on each batch indicated on the CRT, as required, all of these units 100E,100C,100D being on-line connected to the bank note processing apparatus.

In processing the cassette CRT, the cassette is first uncovered and the identification number of the uppermost classification card CAD is keyed in.

Count data and detection data corresponding to the identificiation number of the classification card CAD are indicated on the CRT 100C. Fig. 1 8 shows an example of a data indication mode, which contains the identification number of classification card, 1234, date, 1982/10/1, time, AM 11::02, operator's number, OP; 567, apparatus number, M/C No. 3, total number of batches processed after power is turned on,100, denomination, 1,000, number of rejected notes R, 2 (counterfeit note, 1), number of correct notes F, 80. and number of unfit notes UF, 1 8. "M" indicates absence of magnetism as the cause of rejection of the counterfeit note out of the two rejected notes, while "SK" indicates skew as the cause of rejection of the unmachinable note. if there are a plurality of rejected notes, data is successively indicated on the CRT in such a manner that data on the note fed last is indicated first. Thus, each rejected note may be matched to the indication on the CRT.The number of rejected notes R. 2 is obtained by subtracting the sum of the number of legitimate notes F, 80 and the number of unfit notes UF, 18 from the total number of bank notes contained in one batch, i.e., by subtracting this sum from 100. Thus, the cassette is actually checked for the number of rejected notes therein. If two rejected notes are detected, a clear button on the keyboard 1 OOE is depressed to discard the band on the unmachinable notes P3, and the rejected notes are stored in a reprocessing box.

When the 100th bath is collated at this point of time, the CRT 1 00C automatically displays data on the next, or the 99th batch, The data on the 100th batch are indicated first because the bank notes in the cassette are taken out in the order reverse to the order of collection. Accordingly, in starting the processing with the first batch, by turning the cassette upside down, the CRT 100C must be rearranged for the corresponding order of indication.

If the actual number of rejected notes differs from the indicated number, the code number of a half-wrapper's name, which appears on the wrapping band of the unmachinable note, is keyed in: a mark "R" representing the rejected note and the correct number are keyed in after the code number; and the clear button is depressed twice. If the actual number of counterfeit notes is different from the indicated number, a band code number is keyed in, and a mark "C" representing the counterfeit note and the correct number are keyed in after the code number. If the actual number of both rejected notes and counterfeit notes detected by manual counting differ from the numbers indicated on the CRT, code "R2C1" is keyed in for the two rejected notes, including one counterfeit note, after tha band code number is keyed in, and the clear button is then depressed twice. Counterfeit notes, along with bands, are stored separately from unmachinable notes, for ease of later rejudgment. The CRT indication for the counterfeit notes may be made prominent by the use of a bright coior (e.g., red), which color differs from those used for other indications.

The identification numbers of individual classification cards are automatically indicated in due order on the CRT, by merely keying in the number for the uppermost classification card. The external operating device 100 can be coupled to a plurality of apparatuses. All data, including the count number and the results of detection for each batch, may be stored in the classification cards, so that the collation of counting and data correction can be executed as a card reader reads the classification card, after the rejecting operation. Thus, on-line processing is permitted.

Claims (6)

Claims

1. An apparatus for processing paper sheets for general use, which sheets are withdrawn as required and are classified into two categories, those fit for reuse and those unfit for reuse; which apparatus comprises: carry means for carrying the withdrawn paper sheets; pickup means for picking up the paper sheets from the carry means, one by one; judgment means for judging the paper sheets picked up by the pickup means, whereby the paper sheets are classified into two groups, a first group fit for reuse, and a second group unfit for reuse; first collecting means for collecting the first group of paper sheets;; second collecting means for collecting the second group of paper sheets, said second collecting means including therein batch half-wrapping means for half-wrapping and banding the second group of paper sheets collected in the second collecting means, and destroying means for preventing the second group of paper sheets collected in the second collecting means from being reused; and conveyor means provided between the pickup means and the second collecting means and adapted to deliver the second group of paper sheets, selectively. to the batch half wrapping means of the destroying means.

2. The apparatus according to claim 1, wherein said destroying means includes a first destroying device for cutting the paper sheets into pieces of a predetermined size, and a second destroying means for use in cutting the pieces of the predetermined size into smaller pieces.

3. The apparatus according to claim 1, which further comprises another batch half-wrapping means for half-wrapping and banding the first group of paper sheets collected in the first collecting means.

4. The apparatus according to claim 3, which further comprises a bundle packaging means for collectively packaging a plurality of batches halfwrapped by the second batch half-wrapping means, to form a bundle.

5. The apparatus according to claim 4, wherein said bundle packaging means wraps the bundle formed of said plurality of stacked batches.

6. The paper sheet processing apparatus, substantially as hereinbefore described with reference to the accompanying drawings.