JPS58221489A - Teller equipment - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a deposit/withdrawal device that automatically deposits and withdraws banknotes at the counter of a financial institution such as a bank.

[Technical background of the invention and its problems]

2. Description of the Related Art In recent years, devices called autocashiers, such as depositing machines, dispensing machines, and customer-operated automatic teller machines (ATMs), have been put into practical use in financial institutions such as banks, and have achieved considerable success.

However, at present, the only device that can be operated by the teller (counter clerk) at the lobby counter is the withdrawal machine, and the deposit machine is not in use.

Generally speaking, when considering the placement of tellers at the lobby counter, mechanized counters, and the waiting time for each task, it is best to place one auto-cashier in the middle for every two tellers. For this reason, a configuration can be considered in which the dispensing machine is placed on the bottom and the depositing machine is placed on the top, but it is extremely difficult to keep the height dimension lower than the high counter, which is installed at a height of about 1 m, and the height is lower than the high counter. This is because it protrudes upward, obstructing visibility and causing discomfort to customers.

Additionally, although a configuration in which depositing machines and dispensing machines are placed side by side has been put into practical use in some cases, it is unnatural for two tellers to climb over and use the machine next to them. However, from the point of view of capital efficiency, with the traditional manual counting system, only a small amount of cash is handed over to the teller by the teller in the morning. Teller improves the efficiency of fund turnover at deposit counters by using banknotes deposited by depositing customers as payment banknotes to withdrawing customers. However, if the depositing machine and the dispensing machine are installed separately, a considerable amount of bills for dispensing must be set in the dispensing machine in advance. This will lead to deterioration of capital efficiency.

In addition, in preparation for the appearance of counterfeit banknotes due to the recent development of printing technology, counterfeit banknotes must be strengthened at counters to determine authenticity.
And! There is a strong demand for mechanization at counters to improve the accuracy of i-numbers and improve the efficiency of personnel.

For this reason, in order to meet these various demands as much as possible, the banknote inspection unit and banknote outlet are shared for depositing and withdrawing money, and the control unit, drive system, etc. are also shared to increase the efficiency and accommodate the banknote in a small housing. Accordingly, a deposit/withdrawal device was also devised that answered all of the above-mentioned problems except for improving the efficiency of funds.

However, improving the efficiency of funds at financial institution counters is an important issue as well as improving the efficiency of personnel, that is, streamlining, and for this reason, we have developed a machine that directly replaces the current counter system that uses deposited funds to pay for withdrawals. In other words, there has been a demand for the development of a depositing and dispensing device that automatically circulates banknotes.

However, automatic banknote circulation type deposit/withdrawal devices take in and inspect the banknotes one by one, which are inserted in batches with mixed denominations and front and back sides, and the inspection results are determined to be "good." The deposited banknotes are stored without aligning the front and back sides, and the deposited banknotes are taken out at the time of withdrawal and used as withdrawal banknotes.If the deposited banknotes are taken out as is, the front and back sides will be mixed. Currently, banks and other financial institutions hand over documents with the front and back sides aligned so as not to be rude to customers, and it is not recommended to release them as is.

[Purpose of the invention]

The present invention has been made based on the above-mentioned circumstances, and its purpose is to convert received deposited banknotes into withdrawal banknotes.
An object of the present invention is to provide a depositing and dispensing device which is capable of automatically circulating banknotes and is capable of carefully discharging banknotes with the front and back sides aligned when dispensing money, and which can minimize the size of the reversed part. .

[Summary of the invention]

In order to achieve such an object, the present invention provides a front-back reversing section that reverses the front and back of the banknotes taken out at the time of withdrawal, and discharges the banknotes with their front and back sides aligned, and a predetermined number of bills are accumulated in the front-back reversing section. Embodiments of the Invention Hereinafter, an embodiment of the present invention will be described with reference to the drawings. I will explain with reference to 1. Figure 1 shows the lobby counter section of a financial institution such as a bank. In the figure, 1... is a banknote automatic circulation type deposit/withdrawal device (only one is shown). )
It is placed between the tables 2 and 2 so that two people can use one.These full-load FDIs are installed at a height that can partially accommodate them on the underside of the counter 3, and are placed in the field of view. It is designed not to obstruct or cause discomfort to customers.

In addition, a teller counter device 4 and a coin payment device 5, which can perform card reading, data input, operation guidance, passbook printing, slip printing, authentication printing, etc., are placed on each table 2. uses these devices 4.5 and the deposit/withdrawal device 1 to perform deposit/withdrawal operations.

The deposit/withdrawal device 1 has an inclined front part on the upper end side of the housing 6, and this part has a banknote input part 7 and a banknote outlet part 8.
, an operation section 10 having a plurality of operation buttons 9, . In addition, on the front side, there are first, second, and second compartments consisting of a 1,000 yen bill storage section 14, a 10,000 yen bill storage section 16, and a standing yen/excluded banknote storage section 16 as a banknote inappropriate bill storage section. 3
The front of the safe is facing 17, 18, 190, and the lock is 20.
These safes 17m, 18t, and 19 can be pulled out by inserting the key into the lock and opening the lock by one corner.

Next, the configuration of the deposit/withdrawal device 1 will be explained with reference to FIG. The banknote outlet section 8 and the banknote input section 7 are formed at the upper part of the front side (left side in the figure) of the housing 6, and below this are the banknote storage section 16, the 10,000yen banknote storage section 16, and the yen/removal section. A banknote storage section 14 is arranged. Furthermore, each of the above-mentioned storage sections 14.15° 16
First, second, and third stacking/retrieval devices 2, 22, and 23 are arranged opposite to each other, and each storage section 21,
22.23 includes a separator mechanism 24.25.26 as a partitioning means to separate the transaction from the previous transaction.
2.1.22.2.
3, temporary storage sections 27, 21j, and 29 can be formed between them.

In addition, an inspection section 3 is located at the center of the rear side of the housing 6 in the vertical direction.
0 is arranged, and above this there is a front/back reversal part 3.
1 is provided.

In addition, a banknote conveyance path 32 is formed in the housing 6 so that the banknote A can be conveyed to each part, and at the branch part there are sorting darts 33a to 33a whose drive source is a rotary lenoid (not shown). 33@ is placed. Furthermore, banknote passage detectors 34h to 34h are placed at various locations along the banknote conveyance path 32.
341, and banknote presence/absence detectors (residual check sensors) 35a to 3 are installed at each stacking location where banknotes A... are accumulated.
5f is arranged.

The banknote input section 7 is provided with a take-in roller 36 whose peripheral surface is baked with knurled rubber with a high abrasion coefficient, and the banknotes A . It is pressed against this take-in roller 36, and one sheet is taken in each rotation of the take-in roller 36. In addition, impellers 39, 39 and 40. ．． 40 are arranged, and the banknotes A conveyed by the carry-in section 321 or the upper conveyance section 32j are transferred to the impellers 39, 39 or 4, respectively.
The particles are received between the blades of 0.40 mm and are accumulated on the receivers 41 and 42 in an orderly manner. The banknotes A... accumulated on the pedestal 41 soil of the front-back reversing unit 31 are pressed against the belt by operating a pinch roller (not shown) with a magnet, so that they are transferred all at once into the discharge unit 32h of the banknote conveyance path 32. It is now being sent.

Additionally, a banknote circulation prohibition switch 44 and an inspection level adjustment switch 45 are provided within the housing 6 and can be operated by opening an opening/closing door 43 (shown in FIG. 1).

Next, with reference to FIGS. 3 and 4, the first and second
, the third collection 8tφ take-out device 21°22, 2.9 will be explained. These accumulation/retrieval devices 2 J, 22,
Reference numeral 23 has the same structure and serves as a mechanism for both stacking and taking out banknotes A, . . . . In the figure, 50 is a main shaft, and this main shaft 50 is supported at both ends via bearing devices 53 and 54 attached to frames 51 and 52, and is located between frames 51 and 52 for instant accumulation. Impeller 55, 56, belt pulley 57゜5B, 59, and extraction tip 7' 60 & y 60b r61
Rotating rotors 60 and 61 are attached as a take-out mechanism with aa6lb.

Impellers 55 and 56 and belt boops IJ 57 and 59 on both sides are rotatably attached to the main shaft 50 via bearings 62, and a rotating rotor 6'0
．． 61 is fixedly attached. Further, the belt pulley 57° 59 and the impeller 55, 56 are connected via a planetary gear reduction mechanism 63, respectively.
It rotates at a speed reduced to 1/16 of that of 7 and 59. In other words, belt goo 1J57, 51
1C has a gear 64 cut, and this gear 64
A planetary gear 650 and a rotating shaft 66 are respectively stopped by the impellers 65 and 56, and the planetary gear 65 is in mesh with an internal gear 67. ! In addition, the circular gears 57, 67 are connected via belts 70, 70 to a rotating shaft 69 whose rotation and stop are controlled via an electromagnetic clutch 68, and when banknotes A are accumulated, the circular gears 67 .67 is fixed and the impeller 65.56 rotates at a speed of 1/16 of the belt pulley 57°59, and
When taking out banknotes A, the rotors 60, 61 and the impeller 6
5°66 rotates at the same speed and in the same direction.
67 are forcibly rotated. ◎ Also, among the conveyor belts 71, 72, 73 that are stretched around the belt pulleys 57, 58, 59, the impellers 55, . 5
A timing belt (toothed belt) is attached to the left and right impellers 55 and 56 to prevent phase shift between the blades of the left and right impellers 55 and 56. ) is used, and a quimming groove (not shown) for driving these two conveyor belts (77, 73) with another axis (not shown) is relatively fixed at 11.

As shown in FIG. 3, the conveyor belts 71, 72, 73 are looped around several pulleys 25, which are arranged around a rotating shaft 74 parallel to the main axis 5θ, and then folded back) 76.7
A part of 7.78 is polymerized, and the branch conveying section 32e, 321, or 32g is configured to clamp the banknotes A distributed by the distribution gate 33c or 33dt33e and send them between the blades of the impeller 55.56. It is supposed to form.

Further, the driving force of a timing belt 81 driven by a timing belt 80 is transmitted to the main shaft 60 via a half-rotation electromagnetic clutch 29. the above,
The main shaft 50 is stopped except when taking out banknotes A, and rotors 60 and 61, which are integrated with this main shaft 50, each have a
The extraction tip 6 (7a
r 61 m or 60b, 6θba It is stopped at a position where it does not get in the way when the banknote A enters the impeller 55, 56 and is accumulated, and the other extraction tip 60b,
61b and 60a*61a also act as stoppers for extracting the coin A from between the blades.

These take-out tips 60m, 60b, 61*p61b are knurled and baked with rubber having a high friction coefficient, and are each provided with a suction hole 83 that communicates with the hole 82 provided along the axial center of the main shaft 50. @
Further, a pulp mechanism 86 having a communication hole 84 communicating with the hole 82 is fitted onto one end of the main shaft 50, and the main shaft 5θ is intermittently rotated every 180° by a half-rotation electromagnetic clutch 79. The valve mechanism 85 is connected to the housing 86
They are now able to rotate relative to each other with a very small gap between them. On the other hand, the housing 86 has a suction hole 8 that communicates with an external vacuum source (not shown) via a pipe 87.
8 is provided. The suction hole 88 and the communication hole 84 of the pulp mechanism 85 are arranged to face each other and communicate with each other at every P5F fixed take-out timing. Therefore, the inside of the hole 82 of the main shaft 50 is under negative pressure at every predetermined take-out timing, and the rotating rotors 60, 61 communicate with this hole 82.
Take-out tip 6 (7a + 61 m -6θb, 6
The suction holes 83 of 1b are also brought into a negative pressure state.

In this way, the half-rotation electromagnetic clutch 79 operates to rotate the main shaft 5.
0 rotates half a rotation, the suction holes 83 of the rotating rotor eO, 61's extraction tips 50&, 61a or 60b, 61b become under negative pressure, and the extraction tips 60h, 61
m and 60b.

The foremost banknote A facing the moving path of the banknote 61b is vacuum-adsorbed and taken out as the rotor 60.61 rotates, and is transferred to the transport belt 71. It is designed to be fed between the polymerized conveyor belt (not shown). The intermittent operation of the half-rotation electromagnetic clutch 79 is performed by exciting a trigger magnet (not shown) to free the trigger bin.

In addition, the above-mentioned extraction tips 60m, 61a and 60b,
As shown in FIG. 3, brake belts 89 and 89 are arranged opposite to the movement path of the banknote 61b, and are designed to squeeze the banknote A and prevent the second and subsequent banknotes A from being taken out. ing. Note that the outer circumferential surfaces of the impellers 55 and 56 and the outer circumferential surfaces of the take-out tips 60a, 61h, 60b, and 61b are substantially flush with each other, but the conveyor belts 71-72v73 are recessed by a considerable amount.

Next, the structure of the separator mechanism 24, 25, 26 as the partitioning means will be explained with reference to FIG. These separator machines Jm;x, 2rx26 have the same configuration. That is, 1,000 yen bill storage section 16, 10,000 yen bill storage section 1
A rectangular frame-shaped flexible body 90 is provided in the banknotes 5 and the standing banknote/rejected banknote storage section 14, respectively, to surround the banknote group A... stacked on the pedestal 89. This movable body 9
0 is supported by guide rods 91 and 91 so as to be able to reciprocate along the stacking direction of banknotes A. Both upper and lower horizontal frame parts 90a of this movable body 90
, 90b has 3m each consisting of a pair of claws 91 and 91.
Seven brackets 92hH92be93b are respectively disposed and held rotatably through 90 degrees by rotary solenoids 93 and 94.

Further, a driving pulley 96 attached to an introduction shaft 95a of a motor 95 having a reduction gear is disposed near one end of the idle rod 104, and a driven pulley 97 is disposed near the other end. One end of the movable body 90 is fixed near the driving pulley 96, and the middle part is fixed to the driven pulley 96.
The other end of a spring belt 98 which is wrapped around the spring belt 7 and folded back is connected to the drive booth 96 at one end, and the other end of a wire 99 is connected to the drive booth 96, respectively. In the normal state, the initial number ? Detector 100 for forward position and detector 10 for forward position
1 are provided respectively, and the movable body 90 is stopped at this position. This movable body 90 is normally moved forward from the back-up body 103 by a pressing spring 102 via the stacked banknotes A...
It is receiving a pressing force from r2, 2s. However, this force is only about 1.2 kfJ/cm, which is 1/100 even for the maximum accumulated response of 1,400 sheets.
3 of the force that rotates the motor 95 having a reduction gear in the opposite direction.
5 kli/cm", so even if the motor 95 is de-energized, each body gas detector 100, 101 may be moved further forward than ffL. do not have.

In addition, the upper flappers 92a, 92bg9
2c and 7 rattupas of lower part 92a, 92b, 92c
Between these, the extraction tip 6 of the rotating rotor eO, 61 is inserted.
Each flapper 92 is placed in a position where 0a, 61a and 60b, 61b can pass through! L.

Is there a conveyor belt between each claw 91 and 91 of 92b and 92c? 1
, 72, 73 are determined so that even when the movable body 90 advances to the forward position, each flan/4'g2h, 92br92c or Alj to the accumulation-takeout device 21, 22, 23 is determined. ◎The motor 96 moves the drive pulley 96 in the forward direction and winds up the wire 99, so that the motor 96 is 7' IP92 &
The movable body 90 to which r9 j b + 92e is respectively attached is moved backward, and the drive pulley 96 is driven in the opposite direction, so that the movable body 90 is moved forward by the biasing force of the spring belt 98.

Next, the depositing operation will be explained with reference to FIG. 2 and FIGS. 6 to 8, and the withdrawal operation will be explained with reference to FIG. 9.

First, the temporary deposit accumulation operation and removal operation will be explained with reference to FIG. 2 and FIG. 6. First, the banknote bundle A... is set in the banknote input unit 7 with a mixture of denominations, front and back, to the maximum (approximately 40.0 denominations). At this time, the banknote bundle A... Then, when the operation unit 10 starts to press down on the tank, each conveyor belt that constitutes the banknote conveyance path 32 rotates, and after these conveyor belts reach a constant rotation speed, the take-in roller 3
6 is not shown! It rotates by connecting the magnetic latch, and starts loading one sheet per rotation starting from the one at the front end. At this time, the first sorting dart 33a is connected to the intake conveyance section 32a.
It is switched so that the banknotes A conveyed by the central conveyance section 32b are guided. The taken-in banknotes A are counted by the first banknote passage detector 34g, the second and 30th banknote presence/absence detectors 34b+34c while sequentially shifting their passage, and are sent to the inspection section 30.

Here, banknote discrimination is performed using a completely different method from the conventional discrimination method that detects partial delinquency characteristics. In other words, the ``short length'' and ``longitudinal length'' of the entire banknote A, ``magnetic pattern matching,'' ``color separation of transmitted light,'' ``division matching of fine parts using reflected light,'' and so on are performed. Half-separated”
, ``authenticity determination'', ``goodness/damage determination'', and ``front/back determination'' are performed during the inspection section 30.

As a result, if there is a banknote A that is found to be "false" in the authenticity determination, that is, a banknote A that has been overlapped, has become noticeably loose, or has been damaged, and cannot be recognized as a correct banknote A. The second sorting gate 33b is rotated to the left when the tip reaches the fourth bill passage detector 34d. Then, the rejected banknote Af that has reached the terminal end of the central transport section 92b is transported to the banknote exit section 8 side through the rear transport section 32c as shown by the broken string arrow. At this time, impellers 40 and 40 are rotated at a low speed in the banknote exit section 8, and the rejected banknotes A, which have been conveyed at a high speed, are transported through the impeller 4.
They are decelerated once at a speed of 0.40, and are stacked one after another in an orderly manner on the pedestal 40 with the speed greatly reduced.

On the other hand, the banknotes A that have been determined to be "true" in the authenticity determination are guided by the second sorting dart 33b to the front conveyance section 32tlK as shown by the solid line arrow, and then the egg yen banknotes A are transferred to the third sorting dart 33b. Tachiko yen/excluded banknote storage section 14 via minute dart 33c
The 1,000 yen banknotes A are transferred to the lower branch transport section 32e leading to the 1,000 yen banknote A ( l-
1'Thousand yen bill storage section 1 via the fifth sorting dart 33e
They are each guided to an upper branch branch conveyance section 32g leading to No. 6.

At this time, separator mechanisms 24 and 25 are provided in each storage section 14°15.16.

26 is in the initial position, both the upper and lower flappers 92m, 92b, 92a move the banknote A...
・The stacking/retrieving device 2 is in a pressed state.
, 22.23, the temporary storage section 27.28.29 is formed on the front side of the branch conveyance section 32e+.
32f t 32g, that is, the conveyor belt 71.72.
73 and 76°77.78, the banknotes A are collected and transported as described above with reference to FIGS. 3 and 4.
The materials are accumulated in the temporary storage section 27, 28, 29 via the impellers 55, 56 of the extraction equipment 21, 22, 23 rotating at low speed.

Next, when the banknote presence/absence detector 35h detects that all the banknotes A in the banknote input section 7 have been taken in, the banknote exit section 8
The banknote presence/absence detector 34f detects whether there is a banknote A in the banknote 1. displays on the display unit 13 to prompt re-insertion. If there is no banknote A, the machine enters the confirmation step, and the temporarily stored banknote A... is stored in each storage section 14, 15, 16.
・Determine whether to store the banknotes A... together with the banknotes or to automatically return the banknotes A and return them to the banknote exit section 8.

Referring to FIGS. 2 and 7, temporary storage section 27
．． 28. The automatic return operation of deposited banknotes A... accumulated in 29 will be explained. First, separator mechanism 24.25
．． 26 motors 95... are rotated to move the movable body 90 forward to detect the forward position detector J 01 #
j 01 , driven in the 101 direction.

However, these detectors 101... are set in positions where they work when each movable body 90... moves forward the most when there are no temporarily stored bills, so if the bills A... are accumulated, Each 7ratspa 92a.

The forward movement of the movable body 90 is stopped when the stacked banknotes collide with the banknotes 92a, and the banknotes 99 become slack. Since the drive motor 95 is a pulse motor, each stage drives the motor by the distance from the initial position to the forward position. In this state, the wire 99 is slack, so the seven wrappers 92a, 92b, 92c of each stage are connected to the back-up body 1 of each stage.
03... From V, the stacked banknotes A... of each stage are 7 latches 92a by the force of the spring 102...

92b and 92c to the accumulation/retrieval device 2.

22. Press the banknotes A... in the temporary storage section onto 23. Here, put in the half-rotation electromagnetic clutch 79... of each stage and take in the 10,000-yen banknote A15,000-yen banknote A1, 1,000-yen banknote A with Itl. and stack the banknotes in Kawaguchi 8.

The end timing of the loading operation of each stage is determined by the bill presence/absence detector 3.
5b, 35c, and 35d change brightly, and the separator mechanism 24, 25, 26 is the forward position detector 1.
01, 101, 101, and after further 5 rotations, the passage detector 34 e + of the accepted banknotes from each stage is detected.
34 f e When the banknote A is not conveyed to 34g, the process ends and the process moves on to the next operation. The flow of banknotes A at the time of deposit and return is shown by solid line arrows in FIG.

Detector 3 that detects the presence or absence of banknotes A in the banknote exit section 8
51 becomes clear, the automatic return banknote has been taken out of the receiver, so the motors 95 in each stage are driven to open the movable body 90, and the detector lθθ is activated in each stage. ,l
The series of operations is completed by returning to the initial position detected at θθ, 100, and the motor 95 is turned off.

In this way, the state returns to the state shown in FIG.

Note that the banknote A inside the separator mechanism 24, 25, 26
In order to prevent ... from being collected together with automatically returned banknotes A...
2aH92b p 92c should be thick 1
It is safe as long as it is at least 10 to 15 thick.

Further, for this reason, it is better to use a lightweight plastic material such as boria heptatar for the material of the flappers 92a, 92b, and 92c.

Fuller) i'92aH92b There is a gap of 0.5 mm between the impeller 60 and the impeller 61 even at its most advanced position, and each separator mechanism 24 is designed to maintain this gap.
．． A front stopper (not shown) is attached to 25 and 26.

Next, see Figures 2, 5 and 8 for storing deposited banknotes.
This will be explained with reference to the figures. When the reading is completed and the detector 35m in the bill slot 7 turns bright, the confirmation step is entered. At this time, press Confirm and after ON-LINE communication, the acceptance is accepted.
When "Tsukasa" appears, the low clean renoid 93 shown in FIG.
94 to rotate the flappers 92m, 92b, and 92a to open both the top and bottom toward the water surface. In this way, the banknote groups A..., A... stored in each tier are backed up by the backups 10J, lOJ, 103 of each tier.

A... is pushed forward by the pressing springs 102, 102, 102, and comes into contact with the stacking/retrieving devices 21, 22, 23 together with the banknotes in the temporary storage section and stops. After this,
Flappers 92h, 92b.

92cf Rotary solenoid +y9g to make it horizontal
, 94 are energized, the separator mechanism 24, 25, 26
When the banknotes A are driven by the motor 95, since there is no resistance from the banknotes A, the mechanism passes through the banknotes 1 through the spring belt 98 and reaches the forward position (the state shown in FIG. 8). At this time, each flapper 92a, 92b, 92c is connected to the conveyor belt 7l, 72°7 of the accumulation/take-out device 21.22.23.
3 and into the gap between the impellers 60 and 61 on both sides and the intake chip. At this position, rotary solenoid 93.
・If you cancel 94, 7 Ratsupa 92IL, 92b, 92c
is rotated 90 degrees and the 9 claws are in an upright position. Here, when the motor 95 is rotated, the entire banknote group A... is pulled back through the wire 99 and returns to the initial state again (the state shown in Figure 2). Next, the case of withdrawal is shown in Figures 2 and 3. This will be explained with reference to FIG.

After the denomination, amount, etc. of the banknotes to be dispensed are specified by the teller dispenser 4, the balance of the account is confirmed by communicating with the user via 0N-LINE. If the payment specification is within the range of the balance, the withdrawal will be prepared. First, the separator mechanism 26 of the 1,000 yen bill storage section 16 and the 10,000 yen bill storage section 15. The flappers 92a, 92b, 92e of P'5 are brought into a horizontal state by operating the rotary solenoids 93 and 94. In this way, as shown in FIG. 9, the flappers 92a and 9
2b, banknote group A..., A... held with a gap from the combination mechanism by 92a.
is suppressed by the buffer lug bodies 103, 103 until it comes into contact with the collecting and extracting device 23, 22,
Pressed by J02.

Here, the separator mechanisms 26, 25 remain at the position detected by the initial position detectors 100, 100 and are not moved forward by the motor 95.

This is the upper flapper 92 m, 92 b, 9
There is no problem with 2c, but the lower flapper 92hg92b*9
This is because 2c gets in between the belt 71, 72, 73, the impeller 60°61, the take-out tip 60a, 61h or 60b, and filb, and becomes an obstacle to taking in the banknote A.

First, a banknote A is taken out from the ten thousand yen banknote storage section 15. The vacuum pump is operated, the vacuum pressure increases, and the chip 6 is taken out through the hole 82 formed along the axis of the main shaft 50.
0&, 61ts, 60b.

Suction hole 8 communicating with the hole 82 drilled in 61b
3... becomes a negative pressure, attracting banknote A and 2
Between the brake belt for preventing the number of bills 89°89
... is separated and taken into the front conveyance section 32d. A detector 341 detects whether the banknotes A that have been taken in have immediately merged with the conveyance path 32 and are counted. Since the detector 341 is installed at the position shown in the figure, the designated number of sheets is detected by the detector 34f, counted, and immediately taken in, and the electromagnetic clutch 7 is turned half a turn.
Even if you have 9k OFF L, you will end up with 1 extra coin, which will definitely result in a rejection and poor capital efficiency.

Therefore, the detector 341 continuously rotates the rotating rotor until the designated number of bills minus 1 is counted, and then extracts the bills until the designated number of bills minus 1 is counted.After that, the rotating rotor is driven half a rotation to confirm that the bills have been taken out. When detected by the detector 34f, all capture ends.

That is, if one card is designated to be paid or put out, the detector 341
The rotating rotors 60 and 61 as the take-out mechanism are rotated only half a rotation regardless of the rotation. The bills A taken out in this manner pass through the same bill inspection section 30 as the incoming and gold bills, and are subjected to "bill type determination,""X-falsedetermination,""fitnessdetermination," and "front/back determination."

Regarding the above-mentioned "ticket type determination", it is not necessary for the tickets that have been inspected at the time of deposit, but the staff may set the missing amount, so it is not always possible to avoid setting mistakes, so it is necessary to re-appraise the ticket at the time of withdrawal. O For the same reason, it is necessary to re-examine the "authenticity determination" at the time of withdrawal. Also, since the characteristics of banknote A cannot be obtained when the banknote is normally stacked, it is treated in the same way as a counterfeit banknote.

Regarding ``determination of fitness'', it is desirable to accept deposits as long as they are genuine banknotes and the glaze can be determined, no matter how dirty they are. This is called a damaged banknote and will be returned to hB Steel and disposed of.

However, in order to pay a customer, it is absolutely necessary to avoid paying with damaged banknotes. For this reason, when withdrawing money, the entire banknote A is inspected and any damaged banknotes are checked for stains, rips, repairs with cellophane tape, bent corners, etc. ◎ These damaged banknotes that have been determined to be rejected must be rejected when the tip of the banknote A reaches the detector 4d as shown by the two-dot chain arrow in Figure 9. The sorting dart 33b is rotated to the right by a rotary solenoid (not shown), and the front conveyance section 32d
While the banknotes A are being taken out, the solenoid is energized in the right direction, and the i-minute dart 33c is guided to the standing Yen/excluded banknote storage section 14 and accumulated.

In other words, the standing yen/excluded banknote storage unit 15 receives and accumulates only 5,000 yen bills at the time of deposit, but at the time of withdrawal, it accepts and accumulates only 5,000 yen banknotes, but at the time of withdrawal, it accepts and accumulates only 5,000 yen bills, but at the time of withdrawal, it accepts and accumulates only 5,000 yen banknotes, but at the time of withdrawal, it accepts and accumulates only 5,000 yen banknotes, but at the time of withdrawal, it accepts and accumulates only 5,000 yen banknotes. If the ticket is judged, the ticket will be accepted into the rejet stack. In the normal payment operation, once the specified number of bills is minus 1, the rotor 60, 61 equipped with the extraction tip t+On, 61g+60b, 61b is rotated an additional half turn to dispense a predetermined number of bills. If there is, the rejected bill will not be counted and the withdrawal operation will continue.

Now, the deposited banknote A... is set in the banknote slot 7.
When withdrawing money, it is usually front and back, forward and reverse, and mixed denominations, but at financial institution counters, when withdrawing money, it is always done on the front side. Therefore, the genuine banknote A rotates the sorting case 33b to the left and enters the rear conveyance section 32c, but the banknote A is judged to be front and back by the inspection section 3θ as shown by the broken line arrow in FIG. When it is determined that the banknote is a genuine banknote, and the tip of the banknote A reaches the detector 34h, the sorting dart 33f is rotated to the right and the banknote A is temporarily deposited on the pedestal 4 of the front/back reversing unit 31. The impeller 3g is used for stacking in the front/back reversing section 31 in the same way as in the banknote outlet section 8.

The banknotes A on the front side are not guided to the front-back reversing part 31, but are stacked straight at the banknote outlet part 8 as shown by the solid arrow in FIG. After all the specified number of 10,000 yen banknotes have been stacked at the banknote outlet 8 or the front/back reversing unit 31Vc, the banknotes A... in the front/back reversing unit 31 are moved by the holder 41 to move the pinch roller (not shown) to the magnetic roller. The banknotes are operated, flanged by a belt, and conveyed all at once to the banknote exit section 8.

The impeller 40 at the banknote exit section normally has the function of slowing down and gently guiding and accumulating banknotes that enter one by one, but it has the ability to guide banknotes in bulk within a predetermined number. be. However, if this number is exceeded, the impeller 4
It jumps out from 0 and causes an accumulation failure. □゛For this reason, during the operation of taking out banknotes A, the number of genuine banknotes A... is counted by the inspection unit 30, and even if the number of taken in is within the specified number, the number of genuine banknotes A... is IQ', r Is it the default value? Then, once the take-in operation is done, transfer the genuine banknotes A... from the front/back reversing part 31 to the banknote bank part 8, and then take out the specified number of bills again. Continue the 1tII work.

In this way, the 10,000 yen banknote A from the 10,000 yen banknote storage section J5
When the import is completed, the same operation is performed in the 1,000 yen bill storage section 16.
Do this for 1,000 yen bill A from . Then, the 1,000 yen banknotes A are stacked on top of the 10,000 yen banknotes A, and when all of the banknotes have been taken in, the conveyor belts 71, 72, 73, 76, 77, . . .
7Fj and the vacuum pump are stopped, and the teller removes this banknote A.
When the detector 35h detects that the separator mechanism 26 After moving the ゜25 forward until it is detected by the forward motion detector 1017101, turn off the rotary solenoid 93.94.
, Tefra.

), 92a, 92b, and 92a vertically, rotate the motor 95 in reverse again, and connect the separator mechanism 26, 26 via the wire 99 to the initial hole detector 100.
Pull back until detected by 100. Then, the state shown in FIG. 2 is established.

If there are banknotes A in the standing yen banknote storage section 14, 7 on the spot with exactly the same operation as the deposit accumulation operation.
Level the latspa 92 a e 92 b 192c and move the separator mechanism 24fl forward, then 7 latspa 92a
p 92b H4? 2c is raised, the separator mechanism 24 is pulled to the original initial position by the motor, and returned to the original position, whereby deposited 5,000 yen bills A and withdrawn bills A can be stacked together. When taking out banknotes A using the rotating rotors 60 and 61 as the takeout mechanism, two banknotes are squeezed by the security brake belts 88 and 89 and taken in one by one, so normal banknotes AJ"l' The tip is stopped at a place slightly taken out from the storage section 14.15 or 16.For this reason, the above-mentioned upper and lower flanno and 92 a e 92 b #
Low clean lenoid 93.9 for making 92 o
If the action of turning 3 OFF is performed immediately after the child is taken in, there is a possibility that all banknotes A may not be returned to their original positions. For this reason, when only the main shaft 50 holding the rotating rotors 60, 61 as a take-out mechanism is completed, it is reversed for a short time. In this way, the brake belt for preventing double-sheet failure 89.89 and the extraction tip 60m
, 61h, 60b, and 61b, and the banknote A whose head is slightly protruding also returns completely to the original storage section. After making this state, the top and bottom 7 Ratsuno! 92a, 92b
', 92a, all banknotes A... can be pulled back by the flappers 92a, ff12b, 92c and returned to their initial state.

In addition, in the above-mentioned embodiment, the series of operations are all explained as a deposit/withdrawal machine used by a teller. Of course, it can also be used as a deposit/withdrawal unit for a customer's ATM by attaching a door mechanism.

In addition, the restriction on the number of bills entering the impeller 40 at once was derived from the fact that the back side of the banknotes is not electrically conductive when inserted into the bill insertion section 7, and the impeller 40 is forced into the bill exit section 8 to limit the number of bills returned. If there are actually a large number of genuine banknotes, it is possible to return a large number of banknotes at once by changing the stacking mechanism to a plate spring beat stacking method without increasing the number of operations required.
Alternatively, a simple take-in roller may be used to pick up the bills and return them one by one to the bill ejection port 8.

In addition, it goes without saying that the present invention is not limited to the above-mentioned embodiments, and can be modified to some extent without departing from the gist of the present invention.

〔Effect of the invention〕

As explained above, in the present invention, the banknotes taken out from the back side at the time of withdrawal are put into the front-back reversing part and discharged all at once, so that banknotes with the front and back sides neatly aligned can be handed to the customer.

Moreover, when a predetermined number of bills have accumulated in the front-back reversing section, the removal of banknotes is temporarily stopped and the banknotes in the front-back reversing section are ejected all at once. The reversing section has the effect of being able to be kept as small as possible without requiring a larger capacity than the maximum accumulation amount.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; Fig. 1 is a perspective view of a lobby counter section with a deposit/withdrawal device installed, Fig. 2 is a schematic vertical sectional side view of the deposit/withdrawal device, and Fig. 3 is a main part. FIG. 4 is a partially cutaway front view, FIG. 5 is a partially cutaway perspective view of the separator mechanism, and FIG. 6 is a perspective view showing how deposited banknotes are accumulated in the temporary storage section. FIG. 7 is an explanatory diagram showing the flow of banknotes when depositing and returning, FIG. 8 is an explanatory diagram showing the state when depositing and storing, and
The figure is an explanatory diagram showing the flow of banknotes at the time of withdrawal. l...Payment/withdrawal device, 8...Banknote exit section, 21...
1st accumulation φ extraction device, 22... 2nd accumulation/extraction device, 23... 3rd accumulation φ extraction device, 3
1...Front and back reversal part, A...Banknote. Applicant's Representative Patent Attorney Takehiko Suzue Figure 2 Figure 3 Figure 5 Figure 6 Figure 7 Figure 8

Claims (1)

[Claims] In a banknote circulation depositing and dispensing device that allows deposited banknotes to be taken out as withdrawal banknotes, the banknotes taken out from the back side at the time of withdrawal are put into a front-back reversing part and discharged all at once, and the banknotes are discharged all at once into the front-back reversing part. A cash deposit/withdrawal device that temporarily stops taking out banknotes when a predetermined number of banknotes are accumulated and discharges banknotes from the front/back reversal section.