JP2696089B2 - Automatic transaction equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention
It is installed at the corner of Iso-Mika Co., etc.
The present invention relates to an automatic transaction device such as a deposit / withdrawal device that automatically performs. 2. Description of the Related Art In recent years, deposit and withdrawal devices (Automated Tellers M)
(achine: ATM) is installed in the mechanized corner of the bank.
Automatically using a transaction medium such as a card or passbook
Withdrawal (withdrawal) or deposit (withdrawal)
Can be performed by the customer's own operation.
The operation has been extended for an extended period of time after the
For unmanned operation installed in stores such as stores and supermarkets
Are expected to increase in the future
You. [0003] In such a background, the operation of the deposit and withdrawal device
Efficiency of funding will increase the efficiency and rationalization of personnel as well as
It is an important issue for any financial institution. Of this assignment
In order to improve the efficiency of operational funds, one of the papers received
Banknote automatic circulation type deposit and withdrawal device that applies bills to withdrawn bills
Developed and put into practical use. In the above-described automatic transaction apparatus, bills
A safe cassette with a storage section for storing
It is loaded so that it can be detached. Also, on the device body side
Is a stacking / unloading device having an unloading roller, an unloading roller, etc.
A mechanism is provided.
Stacks and unloads banknotes from the storage section in the set.
Is configured to do so. [0005] However, the above-mentioned problems
As shown in the figure, the safe cassette
Using the collection / extraction mechanism provided outside the
Stacks and removes banknotes from the storage section of a set
If the safe cassette has a stacking roller or take-out roller,
A relatively large window for contacting the banknotes in the storage
Must be provided. In this case, the safe cassette is removed from the apparatus main body.
The bill from the window when carrying it
In order to prevent foreign matter from entering,
In addition to providing a door to close the window on the cassette,
The above door is linked with the operation when attaching the set to the main unit.
The opening and closing mechanism that opens and closes the safe cassette and the
It is necessary to provide at least one. Therefore, the number of parts
Problems, such as an increase in
I will. Further, bills are stored in the storage section of the safe cassette.
In order to accurately and stably collect and take out
When the safe cassette is mounted on the main unit,
The stacking and unloading rollers and the safe cassette are
It is necessary to always be arranged in a constant positional relationship in degrees. Soshi
In order to secure such a fixed positional relationship,
The size and processing precision of both the cassette and
Must be formed in
I will. [0008] The present invention has been made based on the above circumstances.
The purpose is to make it possible to take out banknotes stably.
Both simplify the configuration of the safe cassette and the device body.
It is to provide an automatic transaction device which can be used. [0009] To achieve the above object,
Therefore, the automatic transaction apparatus according to the present invention
Storage section and part of the outer periphery exposed from the safe cassette
Provided in the safe cassette and stored in the storage section
And a take-out roller for taking out the used bill
A safe cassette detachably attached to the
When the cassette is mounted on the main unit,
Roller exposed from the safe cassette and the main unit
From the safe cassette
The banknote transport path for transporting bills and the safe above
When mounted on the main unit, the rotation of the take-out roller
Allow, and if the safe cassette is
A roller that restricts the rotation of the take-out roller when it is removed from
And locking means. [0010] According to the automatic transaction device having the above configuration, the device
The removal roller is locked when the safe cassette is removed from the body
The rotation is regulated by the means. Therefore, safe cassette
The take-out roller rotates incorrectly when carrying
Can be prevented from accumulating in the safe cassette
Prevented bills from being accidentally released to the outside
It is. The take-out roller is incorporated in a safe cassette.
The position relationship between the main unit and the safe cassette.
Stable banknote take-out performance and collection
The product performance can be maintained. In addition, take-out roller is safe
As in the case outside the set,
Large window for contacting the take-out roller with bills
There is no need to provide a banknote,
Doors to prevent
Provide a door opening and closing mechanism that opens and closes this door in conjunction with the arrival operation
Eliminates the need. Therefore, the configuration of the safe cassette and
The configuration of the apparatus main body can be simplified. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of the present invention.
A description will be given with reference to FIGS. FIG. 2 shows the automatic transaction apparatus of the present invention.
1 shows a banknote automatic circulation type deposit and withdrawal device. this
The depositing and dispensing device 1 has an operation panel 3 formed on the customer side of the main body 2.
The vertical board 3a has a passbook insertion slot 4, a car
The card insertion slot 5 and the slip issuing slot 6 also have a horizontal operation panel.
The section 3b is a bill receiving section that also serves as a deposit port and a dispensing port.
Operation unit having a cash slot 7 and a plurality of operation buttons 8.
9 and a guidance display unit, that is, a CRT display unit 10 is provided.
Have been. In the main body 2, the passbook insertion slot 4 is provided.
Accept the inserted passbook and read and record its magnetic
And passbook reading stamp to print transaction details
Character device (not shown), inserted from card slot 5
Handling of magnetic cards and issuing slips to the above-mentioned slip issuing port 6,
Card and slip processing
A knitting device 11 is provided. Furthermore, in the body 2
Returns and returns the forgotten bill A,
Depositing and dispensing mechanism 12 equipped with an inspection function and an internal monitor
The device 13 is housed. Next, referring to FIG.
The configuration will be described. In the drawing, reference numeral 14a denotes an upper unit of the depositing / dispensing mechanism 12.
Knit, 14b is a lower unit. This top
In the upper part on the front side (in the direction of the customer service surface) in the unit 14a,
A bill take-in / take-out device 15 is provided corresponding to the mouthpiece 7.
Have been. Also, the safe box is located behind the upper unit 14a.
The set 19 is arranged to constitute the loaded bill storage unit 23.
You. The lower unit 14b has a first
3, 2nd, 1st safe cassettes 18, 17, 16 are arranged
5,000 yen / discharge as a withdrawal non-conforming banknote storage unit
Removal / recovery banknote storage unit 22, 1,000 yen banknote storage unit (second storage
Unit) 21 and a 10,000-yen bill storage unit (second storage unit) 20
doing. The first to fourth safe cassettes 16, 1
The first, second, third and fourth collections are included in 7, 18, and 19, respectively.
Loading and unloading devices 24, 25, 26 and 27 are provided.
To form a space 301a as an accumulation part
A flapper 315 is provided as a partitioning means. Further, the first to third safe cassettes 16, 1
Reference numerals 7 and 18 denote lower units of the depositing and dispensing device 12 as shown in FIG.
By rotating the transport unit 51 of the unit upward,
It can be withdrawn. Similarly, the fourth safe cassette 19 is also
To rotate the transport unit 50 of the unit 14a upward.
It can be pulled out higher. Also, the upper uni
An inspection unit is provided at a substantially central portion in the vertical direction on the front side in the main body 14a.
36 is arranged, and withdrawal temporary
An accumulation unit 37 and a deposit temporary accumulation unit 38 are provided. In the upper unit main body 14, a bill transport path R
Is formed so that the bill A can be transported to each part.
And a rotary reno (not shown)
Distributing gates 39a to 39j using the id as a driving source are provided.
Have been. Furthermore, bills are located at various places along the bill transport path R.
Passage detectors 40a to 40p and banknotes A ... are accumulated.
Each stacking location is provided with a banknote detector (residual check sensor).
C) Structure in which 41a to 41d, 451 and 320a are arranged
It has become. The above bill passing detectors 40a to 40p
And bill detectors 41a to 41d, 451, 320a
Is a well-known configuration including a light emitting element and a light receiving element. The bill storage units 20, 21, 22, 2
3 includes a full detector 44, a full spare detector 45,
An empty detector 42 and an empty spare detector 43 are provided.
You. Each of the detectors 42, 43, 44, 45 is, for example, a
It is composed of a micro switch and is turned on by a push plate 310.
It is turned off. Next, with reference to FIG.
Intake / exit of bills arranged opposite to the deposit / withdrawal port 7
The device 15 will be described. 415 in the figure opens and closes the deposit / withdrawal port 7
The handle 415 of the shutter 415
a is located at a position lower than the upper surface of the horizontal operation panel 3b.
Shutter 4 depending on the baggage of the customer such as a handbag.
The opening / closing operation of the 15 is not hindered. 403 is on the side where the front panel 401 is arranged.
Provided, one banknote A is sequentially stacked in the stacking unit 454.
A take-in drive motor 40
4 is driven. The detection drive motor 404 has a shaft
Port 405, and a capture timing detection switch
406 detects an initial position. 40
Reference numeral 7 denotes a first floor for supporting banknote A in an upright position.
It is connected to a link 409 via an pin 408.
The link 409 is swingably supported via a link pin 410.
And is provided on the shaft of the floor drive motor 411.
The eccentric cam 412 swings, and the swing causes the floor 4 to swing.
07 vibrates up and down. Then, the first floor 407 corresponds to FIG.
As shown in (a), a foreign matter such as a coin is formed in a comb shape.
6 (a) and FIG. 6 (b)
Banknote A 'inserted in a folded state as shown in FIG.
Has a plurality of gaps 413 such that the corners of
You. 5 and 6, reference numeral 456 denotes a folded banknote A '.
On the second floor lower than the first floor 407
And similarly formed in a comb shape. Figure
Among them, 457a and 457b are optical sensors,
The gap between the floor 407 and the second floor 456 is optically detected.
Is out. The shutter 415 is a shutter lock release source.
The solenoid 416 is operated, and the shutter drive motor 4
17 can be opened by operating, and it is completely opened
It can be detected by the shutter open detection cell 418,
When closing the shutter 415, the shutter drive motor 41
Rotate 7 in the reverse direction to check if the shutter is completely closed
It can be detected by the knowledge cell 419
You. 420 is a height position detection cell of the bill A,
It is possible to detect the wrong direction of the injection. Reference numeral 425 is arranged facing the intake roller 403.
And take-in roller in conjunction with take-in drive motor 404
Rotate in the opposite direction of the rotation of 403 to prevent double picking of banknote A.
Stop roller (double sheet prevention mechanism), 426 is paper
Between the take-in roller 403 and the gate roller 425
Rollers 427 for feeding the paper into the take-in section 455 are bills
A discharge roller 428 that discharges A to the accumulation section 454
It is a saucer provided below a. Front panel 401 and backup
402 are bearings 430, 4 respectively as shown in FIG.
Slideably supported on slide shaft 432 via 31
Have been. These front panel 401 and back
The up 402 is provided with protruding pieces 433 and 434,
The front panel pin 4 is
35 are attached. In addition, the
An elongated hole 436 is formed in the piece 434, and the elongated hole 436 is
The front panel pin 435 is slidably fitted.
You. Front panel 401 and backup
402 is connected via springs 437 and 438, respectively.
Elastically on the side where the take-in roller 403 is arranged
It is urged and the front panel 401 has an inlet
A notch 439 is formed in a portion facing 403,
Panel 401 moves to the side where the take-in roller 403 is located.
As a result, a part of the intake roller 403 is relatively
The front panel 40 is nested through the notch 439.
1 so as to protrude into the stacking part 454 of the bill A
Has become. Reference numeral 440 denotes a loading slot for the front panel 404.
A stopper 441 for restricting a moving range to the roller 403 side;
Is a backup drive motor.
A lever 442 is attached to a shaft of the motor 441. Ba
Backup pin is mounted on bearing 431 of
443 is attached, and this backup pin 443 is
Abuts lever 442 against biasing force of pulling 438
In this state, the front panel pin 435 is
36, so that the front panel 40
1 and the backup 402 are spaced apart and opposed to each other in parallel.
Between the gate roller 425 and the discharge roller 427
It is held to face the part. Also backup
The lower part of 402 is pivoted outward through a hinge 444
It is configured as a movable part 445 capable of performing the following operations. Incidentally, reference numeral 40a in FIG.
451, a residual detection cell, 452 a human detection cell, 4
53 is a backup initial detection cell. next,
The operation for taking in the banknote A will be described with reference to FIGS. 7 and 8.
explain. FIG. 8A shows a state when the bill A is inserted.
Under this condition, back up the front panel 401
The banknote A is inserted into the input area 454 between the banknote A and the banknote 402. This
At this time, foreign objects such as coins and clips have entered the banknote A.
Then, it is a saucer through the gap 413 of the floor 407.
It falls into 428. The input territory 454 is the game roller 4
25 and the discharge roller 427.
Therefore, the foreign matter is removed from the gate roller 425 and the discharge roller 42.
It falls exactly without getting caught on 7. Thereafter, as shown in FIG.
415 is closed and the floor drive motor 411 is
The floor 407 vibrates up and down in response to the reverse rotation,
Due to this vibration, banknote A is aligned and remains on banknote A.
The foreign substance a falls completely into the tray 428. At this time, for example, two folded bills A 'are placed on the floor.
When it has been inserted, the two-folded banknote A 'is shown in FIG.
And integrated on the floor 456 as shown in FIG.
Therefore, it is detected by the sensor 457a. In this case
The user opens the tta 415 and asks the customer to re-enter correctly. Next, the backup drive motor 441
In operation, as shown in FIG.
The angle of rotation of the spring 4
Backup 402 and this with the urging force of 37,438
Front panel 401 is integrated to follow
It moves to the side where the roller 403 is arranged. With this movement, FIGS. 7B and 8
As shown in FIG.
Part nests through notch 439 in front panel 401
Protrudes inside the front panel 401 in the state of
The front panel 401 contacts the stopper 440
Stops and banknote A is taken in by backup 402
It is in a state of being pressed by the stud 403. In this state, the feeding rollers 426,
The take-in roller 403 and the gate roller 425 rotate
The bill A is taken in by the feeding roller 426
In the intake section 455 between 4O3 and the gate roller 425
Fed, and the gate roller 425 prevents double-sheet picking.
While the bill A is being inserted, one sheet is sequentially
It is taken in one by one. As shown in FIG.
Upon completion, a residual check is performed in the residual detection cell 451.
After that, each member returns to the initial position, and the bill A is taken out.
The filling step is completed. Next, the operation of discharging the bill A to the stacking unit 454 is performed.
The operation will be described with reference to FIGS. First,
When the backup drive motor 441 changes from the state shown in FIG.
As shown in FIG. 7 (c), it rotates clockwise. to this
Backup 402 and front panel 401 accordingly
Of the intake roller 40 against the springs 438 and 437
Move to the opposite side of 3 and backup 4
02 movable part 445 is driven by a solenoid (not shown)
And open outwardly, and in this state via the discharge roller 427.
Between the front panel 401 and the backup 402
The bill A is discharged (FIG. 9A). Thereafter, the movable part 4 of the backup 402
45 is closed by the solenoid "off", and
Of the front panel 4
01 and the backup 402 return to their original positions (FIG.
9 (b)). In this state, the operation of the floor drive motor 411 is performed.
Raises the floor 407, and the shutter drive motor 41
The shutter 415 is opened by the operation of step 7, and the customer is
The banknote A to be returned can be returned (FIG. 9C). Soshi
When the bill A is removed by the customer, the shutter drive mode
The shutter 415 is closed by the operation of the
The remaining check of the bill A is performed in the knowledge cell 451, and the bill is
The release step of A is completed (FIG. 9D). Next, referring to FIG. 10 to FIG.
The time accumulation unit 38 will be described. 201 is a support pin in the figure.
Then, the backup lever 202 and the
And the backup link 203 are rotatably
It is attached. At the tip of the backup lever 202
Is provided with an upper conveying means 231 facing the stacking section 230 of the bill A.
The upper transport means 231 has three timing
And the timing pulleys 204.
Is constituted by the timing belt 205 laid around
An intermediate timing pulley 204 is
Connected to a drive source (not shown).
The timing belt 205 runs endlessly in conjunction with the power source
It has become. The upper end of the backup link 203 has a long
A hole 208 is formed.
209, the disc pins 210 attached to the
Due to the rotation of the link disk 209 due to the play of
The coupling 203 swings around the support pin 201 as a fulcrum.
It works. The lower end of the backup lever 203 is connected
The connection pin 211 is attached, and the connection pin 211 and the
A spring 212 between the backup lever 202
It is stretched and backed up by the elastic force of the spring 212.
The lever 202 is urged in a counterclockwise direction in FIG.
Backup lever 202 is backup link 2 by force
03 is in contact with the stopper pin 213 attached to
You. The lower part of the stacking section 230 is provided with an upper conveying means 2.
The lower transport unit 232 is configured to face the lower transport unit 31.
A conveyor belt 214 is provided horizontally, and the conveyor belt 2
14 runs in conjunction with the drive source.
You. A link fulcrum is provided below the conveyor belt 214.
A pin 215 is provided.
The product first link 216 is rotatably mounted, and
The lower end of the first link 216 and the backup link 2
The second stacking link 217 is extended between the lower end of the stack 03
ing. The bill A jumps out to the first accumulation link 216.
A projection prevention plate 218 for preventing
In addition, a hinge 2 is provided at the middle portion of the projection prevention plate 218.
19, the receiving stand 220 for the bill A is rotatably mounted.
Have been. The pedestal 220 has its tip edge formed on the inclined surface 22.
1 is slidably contacted and horizontally supported.
220 is nested with respect to the conveyor belt 214
Is configured above the conveyor belt 214 in a horizontal state.
Side of the stacking section 230 which can move downward from
In the direction, the undercarriage wheel 2 constituting the stacking means 233 of the bill A
22 is provided, and the undercut 222 is connected to the drive source.
The banknote A is sequentially moved to the stacking unit 230 by
Next, they are sent one by one. In the drawing, reference numeral 234 denotes an accumulation guide, which is a link support.
Coupled to plunger solenoid 236 via point 235
ing. The assembly guide 234 is a spring (not shown).
Is pressed to the left. At this time,
The interval from the rate 218 is a new ticket (newly issued bill)
Optimum intervals are provided to accumulate the data. Next,
When power is supplied to the ranja solenoid 236, the accumulation guide 2
34 is moved rightward (the position indicated by the two-dot chain line in FIG. 10A).
You. At this time, the interval between the plate and the projection prevention plate 218 is the same as the old ticket.
It is the best interval to accumulate (notes before ticket change)
Is set to Next, the operation will be described. Waiting for stacking of banknote A
10A and 11A,
So that the pop-out prevention plate 218 stands almost vertically
Then, the receiving table 220 faces above the transport belt 214,
Timing belt 205 is greatly separated above 220
Have been evacuated. Under such conditions, the same drive
The timing belt 205 and the transport belt 21 via the moving source
4. The ratchet wheel 222 operates, and the ratchet wheel 222
Banknotes A are sequentially sent one by one onto the receiving table 220 by the operation of
It is accumulated. At this time, the bill A
Because it can slide every time,
Will be When the banknotes A are stacked in this manner,
The link disk 209 rotates as shown in FIG.
And the backup link 203 rotates counterclockwise in the figure.
I do. In response to this rotation, the spring 212
The backup lever 202 rotates counterclockwise in the figure,
The imaging belt 205 descends. Also, the lower end of the stacking first link 216 is
The product is pulled rightward in the figure via the second link 217 and collected.
The first link 216 rotates counterclockwise in the figure, and this rotation
Causes the protruding plate 218 to fall down in a substantially horizontal state.
Evacuate from the transport path of banknote A and prevent further
The cradle 220 follows the operation of the stop plate 218 and is horizontal.
Descends and retracts below the conveyor belt 214
(See FIG. 11B). As described above, the timing belt 205 descends.
And the receiving table 220 retracts below the conveyor belt 214.
By this, the bills A accumulated on the receiving tray 220 are
Sandwiched between the timing belt 205 and the transport belt 214
In response, the timing belt 205 and the transport belt
Bank A is moved from the stacking unit 230 by the endless running operation of the
The sheet is conveyed to a predetermined position (see FIG. 12A). After completion of the conveyance, each member is
It returns to the state and waits for the next operation (see FIG. 12B).
See). Next, referring to FIG. 1 and FIGS.
First to fourth sets provided in sets 16, 17, 18, and 19
Of the stacking / unloading mechanism 24, 25, 26, 27
You. Since these have the same configuration,
Here, only the first stacking / unloading mechanism 24 will be described.
Description is omitted. In the drawing, reference numeral 20 denotes a storage section, which is located above the storage section 20.
Corresponding to the receiving port 340 formed on one edge side of the portion
Roller 302 and Slasher 303
Are provided, and the accumulating roller 302 and the wobble wheel 3
03 allows the bill A to be sent to the storage unit 20
ing. Further, as shown in FIG.
To the second shaft 302a via a one-way clutch 335
A gear 336 is provided, and is provided in a counterclockwise direction indicated by an arrow in FIG.
And the stacking roller 302 is accidentally externally
Prevent the accumulated banknotes A from going out even when turned
I have. 337 is a gear provided in the apparatus, and
It is designed to mesh with the wheel 336. Further, the upper end of the storage section 20 is formed on the other end side.
Motor (not shown) corresponding to the removed outlet 341
Roller 304 and feed roller 30 linked to
5, the take-out roller 304 and the feed roller
The rubber surface 304a of the take-out roller 304 by the roller 305
The bills A in the storage unit 1 are sequentially taken out one by one through
It has become. Note that the take-out roller 304 has a bill A
Roller 306 and pickup
A roller 307 is provided. As shown in FIG. 18, the take-out roller 304
A detection plate 322 is provided on the shaft 304b, and
The initial position is set by the
Is detected. Reference numeral 321 denotes a take-out roller lock release solenoid.
It is a solenoid, and when turned on, the shaft 30 of the take-out roller
4b, a recess 33 formed in a plate 330
The lever 331 fitted to the take-out roller 3a is sucked.
04 is unlocked. Lock release solenoid 32
1 is ON only when taking out a bill. For this reason, the safe
When the sending unit 51 is opened or the safe is removed,
Roller 304 is locked by lever 331
Paper that has been accumulated even if the take-out roller 304 is turned by mistake.
The bill A is prevented from going outside. The reference numeral 332 indicates that the lever 331 is always recessed 3
A spring biasing in a direction in which the spring 30a is fitted;
33 is a gear provided on the shaft 304b of the take-out roller.
And mesh with a gear 334 in the device. Plate 330, lever 331, lock release
The solenoid 321 and the spring 332 have a lock mechanism.
Is composed. Also, the pulse mode (not shown) described above is used.
Gears 333, 334, detection plate 322,
The switch 323 and the shaft 304b are
Controls the rotation of the take-out roller 304 together with the lock mechanism.
It constitutes the control unit. In FIG. 14A, reference numeral 308 denotes a slide.
The bill A is stored on the slide shaft 308 by a shaft.
Pushing plate 309 that is pushed below storage section 20 and storage section
Backup 310 to push up banknote A in 20 is attached
The backup 310 is always a spring (not shown).
) Is elastically urged upward by the
Stop at any position via rake 311 and fix
You can do it. Flaps are provided on both sides of the middle section of the storage section 20.
315, 315 are provided, and these flaps 315, 3
15 opens and closes in conjunction with a solenoid (not shown)
And does not normally protrude into the storage section 20
Elastic by spring (not shown) to keep it open
Is energized. 316 is a residual detection sensor,
317 is an extraction detection sensor. Push plate 309 and backup 310
17, from one end to the other end, as shown in FIG.
Elongated long perforated holes 309a, 310a are formed on the sides.
Has been established. Further, the pushing plate 309 and the battery
Sky detection sensor 320 between the upper and lower portions of the backup 310
Is provided. This sky detecting sensor 320 is a light emitting element 320
a and the light receiving element 320b.
The light emitted from the push plate 309 and the backup 31
In the state of tilting obliquely with respect to the direction of movement
The light receiving element 320 passes through the transmission holes 309a and 310a.
b. FIG. 1 is an oblique external view of the safe cassette 16.
You. The collecting roller 302 has an upper portion forming a conveyance path.
Part of the outer periphery of the exit roller 304 is from the safe cover 344.
It is exposed. The guide row is on the top.
342... Are provided in the transport unit 51.
It is in a state of rolling contact with the rollers 34. Next, the operation of the stacking / unloading mechanism will be described.
Bell. First, at the time of standby, as shown in FIG.
The flappers 315 and 315 protrude into the storage section 20 as shown in FIG.
And the flappers 315 and 315
The banknotes A accumulated on the lower side are arranged, and the banknotes A
Elastically pressed by the backup 310 from below
I have. At the time of stacking the bills A, as shown in FIG.
As described above, by the accumulation roller 302 and the undercut 303
The bills A are sequentially taken into the storage unit 20 and the flapper 31
Temporary storage unit 301a in the space above 5,315
Will be integrated. When the taking in of the bill A is completed, the pushing plate 3
09 descends, and banknote A in the temporary storage section 301a is flappered.
Pushed down with 315, 315 to the specified storage position
The process is shifted (FIG. 14C). After this, the “O
14 closes the flappers 315 and 315 (FIG. 14).
(D)) In addition, the pushing plate 309 rises and returns to the waiting position.
You. This locks banknote A on flappers 315 and 315
And is held in an integrated state below (see FIG. 14).
(E)). The pushing plate 309 has flappers 315 and 315.
315 is configured to be nested,
It can be moved up and down regardless of the arrangement of pars 315 and 315
ing. In this way, the bill A for the storage
Is completed, but as shown in FIG.
When the bill A is pushed in by the pushing plate 309, the temporary storage unit
The remaining check of the bill A with respect to 301a
When the residual is detected, that is,
When the residual detection sensor 316 is in the dark,
The process is repeated again. On the other hand, at the time of taking out the bill A, FIG.
From the standby state shown in FIG.
Then, the flappers 315 and 315 open, and the upper
The pressing plate 309 hits (FIG. 14B). Later push
When the plate 309 is pressed upward by the backup 310,
Together with the banknote A, and returns to the standby position.
Contacts the take-out roller 304 and the feed roller 305
(FIG. 15C). In this state, the take-out roller 304 and the filter
Rubber of the take-out roller 304 by the operation of the
Banknotes A are sequentially taken out via the surface 304a, and a predetermined number of
When the take-out is completed, the take-in timing detection switch 323
Signal causes the rubber surface 304a to appear on the transport path surface of the bill A.
Contact with the banknote A remaining in the storage unit 301
The take-out roller 304 stops with a bear that keeps the position
15 (d)). The bill A is taken out by the take-out roller 3
04 is performed only when the rubber surface 304a of
Besides the other banknote A except for the banknote A that is being removed.
The edge is flush with the extraction floor 301A of the storage unit 20
Should have stopped at. However, the banknote A
Position and multiple sheets are taken by the gate opening roller 306.
Therefore, normally, the leading edge of the bill A is
To the location of
The leading edge of bill A is picked up
It may have reached the position of the roller 307. However, when banknotes A are stacked and stored,
As shown in FIG. 14C, the bill A in the storage unit 20 is
Into the flapper 315, 315
Temporary storage unit 30 as an accumulation unit above 315 and 315
1a must be formed.
Banknote A whose leading edge protrudes from the side floor 301A (hereinafter, referred to as banknote A)
Choro ticket A "), this Choro ticket A"
Is pressed by the push plate 309, the leading edge of the
In some cases, it may not be possible to take it out when taking it out. this
Therefore, take out the choro ticket A ″ and make it flush with the take-out floor 301A.
Need to be pulled back to the right position. Then, the banknotes A are sequentially taken out and a predetermined number of
At the time when the removal is completed, the pickup roller 3
When the leading edge of banknote A protrudes to part 07
Detects this with the extraction detection sensor 317, and
Take out the banknote A as a rejected ticket based on it
Store in reject storage. The leading edge of the bill A is the part of the gate roller 306.
If it is prominent (choro-ticket A "),
When the removal detection sensor 317 is clear, first, the push plate 3
09 and descends from the gate roller 306
(FIG. 16 (a)), and the choro
Stacked on ticket A "and backup 310
The banknote A is pressed by the pressing plate 309 and the backup 310 is pressed.
And move it down integrally. And move to a certain position
Back up via electromagnetic brake 311
310 is fixed, and in this state, only the pushing plate 309 is provided.
Is raised to return to the standby position (FIG. 16B). In response, the paper on the backup 310
Pressing against the banknote A is released, and then under this condition
Backup by electromagnetic brake 311 "off"
10 is raised (FIG. 16 (c)). At this time,
Pressing the bill A on the top 310 is released
From above, the choro ticket A ″ located at the top
It moves freely and is aligned by friction with the lower 301A. Here, the pressing plate 309 is lowered again
The bill A is pushed downward, and the bill A
The residual is detected by the residual detection sensor 316, and the residual detection
If the sensor 316 is dark, the choro ticketing A ″ is not aligned.
That the electromagnetic brake 311 is "on"
Fix backup 310 and push plate 309 to standby position
And then turn off the electromagnetic brake 311
The above-mentioned positioning operation of raising the backup 310
Is repeated again, and the residual detection sensor 316 is clear.
If it is, the positioning of Choro-ticket A "is completed.
After pushing banknote A down by plate 309,
Close the flapper 315, 315 via the
Hold them below the flappers 315, 315 (FIG. 16).
(D)). On the other hand, when the bill A is taken out,
When all the banknotes A in 0 are taken out, as shown in FIG.
As shown in FIG.
In response, the sky detection sensor 320 is turned on.
At the same time, the backup 310 presses the pressing plate 309
And descends integrally with the pressing plate 309 (FIG. 13).
(B)). Then, the backup 310 becomes the flapper 3
15 and 315, these flappers
315 and 315 are closed by the solenoid “ON”,
Backup 310 by these flappers 315 and 315
Is locked, and the pushing plate 309 rises to the standby position.
Return (FIG. 13 (c)). At this time, the light emitted from the sky detection sensor 320 is transmitted.
The light sequentially passes through the holes 309a and 309b.
Move the push plate 309 and the backup 310 (below
Since it is oblique to the descending direction, the pressing plate 30
9 and the backup 310 relatively moved according to the movement
The emitted light is transmitted from one end to the other end of the transmitted light 309a, 310a.
Side. Therefore backup 3
Sky detection for a wide area S on the upper surface of
Therefore, folded tickets and habit tickets on the backup 310
Even if you have a banknote A left, don't miss it
It can be accurately detected without any problem. FIG. 20 is for explaining an electric circuit.
is there. That is, the main control unit 150 controls the whole.
The storage unit 152 is, for example, a ROM (read-on
Control memory etc.
It has become so. The depositing and dispensing mechanism control unit 151 includes a main control unit 150.
According to the signal from the inspection control unit 155
It controls the deposit and withdrawal mechanism 12. Inspection control unit
Reference numeral 155 controls the inspection unit 36. Operation board
The internal / internal monitor device control unit 153 includes the operation panel unit 3 and the internal
It controls the monitor unit 13. The card / slip processing control device 154 is
To control the card / slip processing unit unit 11.
You. The passbook reading / printing control unit 156 is connected to the passbook insertion slot 4
Read the magnetic stripe of the passbook inserted from the
Passbook reading stamp that records transaction details in books and journals
It controls the character device 157. The main control unit 150 controls each check in the deposit / withdrawal mechanism 12.
Each according to the signal from the detector and the signal from the inspection unit 36
The number of sheets stored in the storage units 20, 21, 22, 23 was counted.
The number of stored, loaded, and inspected sheets for each denomination.
There are things to count. Further, the main control unit 150 has a remote monitor input.
The output control unit 159 is located far from the deposit / withdrawal mechanism.
To control the remote monitor 176 provided in the
It is. Further, the main control unit 150 communicates with the communication control unit 158.
Therefore, data transmission with a central processing unit (not shown) will be performed.
Swelling. The internal monitor device 13 is as shown in FIG.
, An operation progress code display section 161, a reset button
162, loading button 160, refill button 163, denomination
Display the number of transactions with
Display section 16 for displaying the number of loaded or inspected sheets
4, storage button 166, tightening button 168, collation button
169, a return button 167, and a near-
Indicator 17 indicating the end by blinking and the end by lighting
0, the near end of the 1,000-yen banknote storage unit 21 is blinked and displayed.
Indicator 171 that lights the command, 5,000 yen / excluded ticket storage section
A table that indicates the near end of 20 by flashing and the end by lighting
An indicator 172, an indicator 174 indicating collection and loading, and
It consists of a keyboard 173 consisting of
Have been. The remote monitor 175 is as shown in FIG.
Is configured. That is, the d
Indicator 17 for blinking the end and lighting the end
8. The near end of the 1,000-yen banknote storage unit 22 is indicated by a dot and
Indicator 179 that lights up the display, 5,000 yen / excluded ticket storage unit 2
Indicator indicating the near end of 0 by lighting and the end by lighting
180, subject, operation step, operation status code
Or the number of bills or scrutiny of 10,000 yen bills or 1,000 yen bills
Display section 177 for displaying, and a number button 176 etc.
It is constituted by. Next, the operation in such a configuration will be described.
I will tell. For example, now, first, customers (customers) are displayed on the CRT
Insert the card or passbook displayed on the
Please insert the card into the card slot
Insert into 5. Then, on the magnetic stripe of that card
Is read by a reading unit (not shown), and the main control unit
150. As a result, the main controller 150 corrects the card
Check their validity. And if the card is valid,
The control unit 150 displays the message "Password is entered" on the CRT display unit 10.
please do it. "Is displayed. Soshi
Then, the user inputs the personal identification number with the operation button 8
The main control unit 150 communicates with the password read from the card and the operation
Matching with or related to the password entered using the work button 8
Check sex. If they match or if the relevance is
When the specified rule is satisfied, the main control unit 150
Indicate "Please select a transaction type" on the T display unit 10.
And select “Deposit, Withdrawal, Transfer, Balance Inquiry”
Displays the selection button instruction. And select the type of transaction
When the operation button 8 corresponding to the deposit is entered,
The control unit 150 enters a deposit receiving state and enters the deposit / withdrawal mechanism 12.
Output money order. As a result, the deposit / withdrawal mechanism 12 moves in and out.
The shutter 415 of the metal opening 7 is opened. Next, the user puts the bill bundle A in a mixed denomination front and back.
After being put into the bill storage room 454 in a lump and standing position,
When the shutter 415 is closed, the shutter close detector 419 is closed.
It is detected that the shutter 415 is closed. Next, the floor drive motor 411 rotates at high speed.
In response, the floor 407 vibrates up and down, and this vibration
The movement causes the banknote A to be aligned. At this time, the detector 457
When the accumulation failure of the bill A is detected, the main control unit 150
Open the shutter 415 and use the CRT display 10 to
Please re-insert and close the door. " When the shutter 415 is closed,
Position operation, and the main
The control unit 150 correctly inserts the bill A into the bill storage room 454.
After it has been determined that the bill A has been
Then, one by one is taken from the foremost one. This
The inserted bill A is transported via the take-in transport path R2.
At this time, the bill A is detected by the bill passing detector 40a.
The main control unit 150 receives information based on the detection signal.
The counted number is counted. When the banknote A passes through the inspection unit 36,
`` Short Length '', `` Long Length '', `` Magnetic Pattern Map ''
"Ching", "Color separation of transmitted light", "Fine parts by reflected light"
Detection such as "minute division matching"
`` Ticket type discrimination '', `` True / False discrimination '',
/ Old ticket discrimination "is performed, and the result is sent to the main control unit 150.
Supplied. As a result, the main control unit 150
The result is counted by a counter (not shown). Further, the main control unit 150 determines “false” in the true / false judgment.
Banknote A became piled up or significantly skewed
Could not be recognized as a correct banknote
In this case, an exclusion signal is output to the deposit / withdrawal mechanism 12. This
The tip of the bill A reaches the bill passage detector 40
When the third sorting gate 39c moves to the left, the fourth sorting gate 39c moves to the left.
The gate 39d is rotated to the left. Then, the bill A
Are temporarily accumulated in the dispensing temporary accumulation unit 37. On the other hand, it is determined as “true” by the true / false determination, and
In the case of a banknote determined to be “back” in the front / back discrimination, the main control unit 1
50 outputs the signal to the depositing / dispensing mechanism 12. This
And the bill A is sorted on the sorting dates 39c and 39d.
Is accumulated in the deposit temporary accumulation unit 38 via the left conveyance path.
You. In addition, it is determined to be “true” by the above-described true / false determination, and
Banknote A determined to be “front” in the determination is a sorting gate 39C.
, And through the right transport path, the depositing temporary accumulation section 38
Will be integrated. When the inspection result is an old ticket, a deposit / withdrawal machine
Structure 12 turns on plunger solenoid 236,
The stacking guide 234 reaches the position indicated by the two-dot chain line in FIG.
Moves to increase the accumulation width. Deposit and withdraw once you turn it on
The mechanism 12 is kept in the “ON” state until the loading process is completed.
Carry. On the other hand, the bill storage room 4 is detected by the detector 451.
When the absence of the bill is detected, the rotation of the take-in roller 403 is performed.
Stop the rotation and end the import processing. Next, withdrawal temporary accumulation
When the rejected banknotes A are accumulated in the portion 37, the arm
92 moves downward, and the rejected banknote A
And 62, and transported to the bill storage room 454 in a lump
(See FIG. 9). In this way, return to the bill storage room 454
The rejected banknotes A are retaken and conveyed and deposited.
Disposal is performed. In this way, all the inserted banknotes A are collected.
After being accumulated, they are counted and collated. In other words, the inspection unit 36
Of the genuine bills determined, the number of discriminated
The number of discriminations, the discrimination number of 1,000 yen bills, and the deposit temporary accumulation unit 3
8 through the passage detectors 40i and 40h on the conveyance path.
The main controller 150 checks the counts of the respective counters,
Counting is guaranteed by double checking. Then, after counting and collation as described above,
The main control unit 150 displays the number of ticket types and the total deposit amount on the operation panel unit 3.
Is displayed on the CRT display section 10 of the
Prompt for the number of tickets and ticket types. Customer presses confirm button
Then, after online communication, acceptance becomes "OK"
The bill A in the depositing / accumulating portion 38 is a bill taking-in / out device 1
5 to the stacking section 454. In other words, one-time deposit
The timing belt 205 of the stacking section 38 descends, and
220 retreats below the conveyor belt 214. others
The bill A accumulated on the receiving tray 220 is
Stacking portion 2 sandwiched between the belt 205 and the conveyor belt 214
It is conveyed from 30 (FIG. 12A). Next, in the bill taking-in / out device 15,
Backup 402 and front panel 401
Move to the opposite side of the
The moving part 445 opens outward and deposits via the release loaf 427
Receiving and accumulating bills transported from temporary accumulating unit 38
454. Further, the take-out roller 403 is rotated so that the bill A is
Captured one by one. This taken banknote A is taken in and carried.
It is transported via the transmission path R2. At this time, bill A is a bill
Capture detection is performed by the passage detector 40a, and the detection is performed.
The signal controller main controller 150 counts the number of captured images. When the bill A passes through the inspection unit 36,
Again, "Short Length", "Long Length", "Magnetic Pattern"
Matching, color separation of transmitted light,
Detection of "partial matching of details" is performed
As a result, "ticket type discrimination", "authentication judgment", "damage judgment"
The result is supplied to the main control unit 150. This
Accordingly, the main control unit 150 does not show the inspection result.
Count with a counter. Further, the main control unit 150 determines “false” in true / false determination.
Banknote A has been stacked or significantly skewed
Damaged or damaged and cannot be recognized as a correct bill
In this case, an exclusion signal is output to the deposit / withdrawal mechanism 12. to this
Of the bill A reaches the bill passage detector 40j
Then, the seventh sorting gate 39g is rotated to the left.
You. Then, the bill A is 5,000 yen / removed ticket / collected bill
It is accumulated in the storage unit 22. On the other hand, 5,000 which is determined to be “true” by the true / false determination
The main controller 150 sends the deposit and withdrawal mechanism 12
Output a signal. As a result, the bill A is sorted.
And the third stacking / unloading device 26
Is accumulated in the temporary storage unit 30la. At this time each storage
In the sections 20, 21 and 22, the flapper 315 projects into the storage section.
Is held in a closed state, and a space is provided above the flapper 315.
Are formed, and the accumulating roller 302 and the swatter 30
3 stacks the banknotes A. On the other hand, in the case of a 1,000 yen bill and a 10,000 yen bill,
Operate to operate the first and second temporary storage units 33 and 34, respectively.
Will be integrated. At the time of the accumulation, the passage detectors 40k, 40
According to the detection signals of m and 40o, the main control unit 150
Do not show the number of stacked yen, 1,000 yen, and 10,000 yen bills.
Count with a counter. On the other hand, the bill storage room 4 is detected by the detector 451.
The rotation of the take-in roller 404 when the absence of the bill is detected.
Is stopped, and the import processing is terminated. Pushing is completed when import is completed
The plate 309 is lowered, and the banknote A in the temporary storage section 301a is
Pressed down with the wrapper 315 and moved to the specified storage position
(See FIG. 14C). Thereafter, the solenoid is turned on to turn on the solenoid.
The wrapper 315 is closed (see FIG. 14D).
The pushing plate 309 rises and returns to the standby position,
Banknote A is locked by flapper 315 and accumulated below it
The state is maintained (see FIG. 14E). Next, when a transaction type is selected,
When the operation button 8 is pressed, the main control unit 150
Press the forehead with the button and finally press the yen button. "When
Is displayed on the CRT display unit 10. About
In accordance with the guidance, the user can use the operation buttons 8 to
throw into. By inputting this amount, the main control unit 150
"If you like the amount, click the confirmation button or the exchange button.
Please push the correction button when you go wrong. "
The characters are displayed on the CRT display unit 10. Press this button
By lowering, the main control unit 150 displays "Communicating.
please wait. On the CRT display 10
Let me display. At this time, the main control unit 150
And output a withdrawal command to the deposit / withdrawal device 12.
I do. Thereby, the deposit / withdrawal mechanism 12 corresponds to the above amount.
Banknotes A, the banknote storage units 21 of the safe cassettes 17 and 18,
22 and is accumulated in the withdrawal temporary accumulation section 37. That is, whether the state is the standby state shown in FIG.
The pressing plate 309 descends from the
5,315 is opened, and the pushing plate 309 is provided on the upper surface of the bill A.
(FIG. 15B). After that, the pushing plate 309 is
Integrated with banknote A pressed upward at backup 310
Rises to the standby position, and the bill A
4 and feed roller 305 (FIG. 15).
(C)). In this state, the take-out roller 304 and
The operation of the feed roller 305
Banknotes A are sequentially removed from the storage unit via the rubber surface 304a.
It is. When the predetermined number of sheets have been taken out,
The take-out roller 304 has a rubber surface 304a that carries the bill A.
To the banknote A that does not appear on the route surface and remains in the storage unit 20
Stop while keeping the position where it does not touch. The bill A thus taken out is sorted.
Gates 39a, 39b, 39c, 39d, 39e, 3
9f, 39g, 39h, and 39i are temporarily distributed.
37. At this time, from the ten-yen banknote storage unit 22
The extracted banknote A is detected by the banknote passage detector 40n.
The main control unit 150 receives information based on the detection signal.
The number of printed sheets is counted. Also, take out from the 1,000 yen bill storage unit 21.
The issued bill A is detected by the bill passing detector 40l.
Is performed, and the main control unit 150 takes out according to the detection signal.
The number is counted. Further, the extracted bill A passes through the inspection unit 36.
When you pass, "ticket type discrimination" is performed, and the inspection result
Is supplied to the main control unit 150. This allows the main control unit
150 counts the inspection result by a counter (not shown).
You. Further, the banknotes A to be accumulated in the temporary accumulation section 37 are paper
The accumulation detection is performed by the bill passage detector 40g, and the detection is performed.
The main control unit 150 is counting the number
You. Then, the signals are passed through the passage detectors 40n and 40l.
When the number of sheets to be taken out reaches the set number, the main control unit 150
Finishes taking out bills from corresponding bill storage units 22 and 21.
Let it go. Further, the main control unit 150 responds to the inspection result.
The added number of 1000-yen banknotes and 10,000-yen banknotes matches the stacking number
The collation is performed depending on the number of copies. At this time, the extracted banknote A is sent to the inspection unit 36.
Pass through and store bills corresponding to each ticket by "note type discrimination"
It was reconfirmed that the ticket type was taken out from parts 22 and 21
You. This "ticket type discrimination" usually does not require reconsideration
However, there was no set mistake when the staff set the shortage
I can't say it, so it's best to recheck. [0117] Regarding the "judgment of damage", the operation
The code determines whether a distribution is required
You. In other words, when depositing, if the bill type can be determined with the "true" bill
No matter how dirty or torn, apply cellophane tape and repair
We accept even tickets. 10,000 yen storage section for those to withdraw
20,000 yen stored in storage unit 21 or 5,000 yen / discharge
It may be stored in the removal / collection banknote storage unit 22,
In the former case, it is necessary to judge whether the withdrawal is correct.
It is not necessary. In any case, as bills paid out to customers
Damaged bills must be avoided. In the case of performing the damage classification control, the damaged bill is usually
Stacking that occurred during the removal of banknotes,
In addition, the pitch is more than the specified value, that is, an abnormal transport ticket,
5,000 yen / discharged in the same way as rejected banknotes that cannot be discriminated in section 36
It is guided and collected and stored in the removing / collecting bill storage unit 22. If a rejected ticket is issued, the first date
Rotate 39a to the right, 5,000 yen / exclusion / collection
The bills are accumulated and stored in the bill storage unit 22. Storage area for rejected banknotes
It is possible to switch to the rejected
You. When the rejected banknotes are generated,
Additional removal is performed to replenish. The payment accumulated in the temporary accumulation section 37 is
The dispensed bill A is sent out by the mechanism shown in FIG.
Then, the bills are accumulated in the bill storage room 454. Then, online
After the communication, the deposit and withdrawal port 7 is opened when the transaction becomes “permitted”.
Then, the banknote A is delivered to the customer, and the processing is completed. The safe cassettes 16, 17, 1
The take-out means for taking out the banknotes A in 8 and 19
High friction member (rubber surface 304)
a) and a part thereof constitutes a part of the transport path R
At the same time, when a deposited bill is transported through the transport path R,
The take-out roller 304 has a high friction member (rubber surface 304a).
Because it is configured to stop at a position that does not face the transport path R,
This take-out roller has a take-out function and a transport drive
Can be used for functions and as a transport guide when depositing
Can be used. Therefore, the mechanism of the transport path R is simplified.
And space efficiency are improved.
Jam processing can be facilitated. The take-out roller 30 of each safe cassette
4 is a lock composed of a lever 331, a spring 332, and the like.
The high friction member (rubber surface 304a) is normally
Face the inside of the safe cassette, and other parts such as metal surface are safe
It is held so as to be exposed to the outside of the cassette. That
Therefore, the safe cassettes 16, 17, 18, and 19 must be
When removing and carrying from
Damage can be prevented. As described above, the take-out roller 30
4 is locked in a predetermined position by a lock mechanism.
The take-out roller is used when carrying the safe cassette
This prevents accidental rotation and, as a result, the safe cassette
Banknotes accumulated in the
And can be prevented. Furthermore, the take-out roller 304 and the collecting row
LA 302 is assembled in safe cassettes 16, 17, 18, and 19.
The main unit and the safe cassettes 16 and 1
Even if the positional relationship with 7, 18, 19 is not strictly fixed
It is possible to maintain stable bill removal and stacking performance.
You. Also, the take-out roller is located outside the safe cassette.
As in the safe cassette 16,1
To bring the take-out roller into contact with the bill at 7, 18, 19
There is no need to provide a large window, and from this window
Door to prevent the removal of banknotes from
Door opening and closing machine that opens and closes this door in conjunction with the mounting operation of the set
Since there is no need to set up a safe
Further, the configuration of the apparatus main body can be simplified. What
Note that the present invention is not limited to the above-described embodiment.
In addition, various modifications can be made without changing the gist of the present invention.
Of course. As described above, according to the present invention, the device
Banknotes are stored in a safe cassette that is detachably attached to the main unit.
Storage part and part of the outer periphery are exposed outside the safe cassette
And a take-out roller for taking out bills from the storage section.
When the cassette is installed in the main unit, the lock means
That the rotation of the take-out roller is restricted
And stable extraction of banknotes,
The configuration of the cassette and the main unit can be simplified
Becomes

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a safe cassette of an automatic transaction apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view showing the appearance of the automatic transaction apparatus. FIG. 3 is a schematic vertical sectional side view of a deposit and withdrawal mechanism of the automatic transaction device. FIG. 4 is a view schematically showing a state of taking out a safe cassette in the depositing / dispensing mechanism. FIG. 5 is a schematic vertical sectional side view of a bill taking-in / take-out device of the depositing / dispensing mechanism. FIG. 6A is a schematic perspective view of a bill supporting portion, FIG.
FIG. 6B is a perspective view showing a support state of the bill when inserted in a folded state, and FIG. 6C is a side view thereof. FIG. 7 is a side view schematically showing different operation states of the bill taking-in / out device. FIG. 8 is a side view schematically showing different operation states of the bill taking-in / out device. FIG. 9 is a side view schematically showing different operation states of the bill taking-in / out device. FIG. 10 is a side view showing a partially integrated portion of the depositing and dispensing mechanism. FIG. 11 is a diagram schematically showing an operation of the partial integration unit. FIG. 12 is a diagram schematically showing the operation of the partial integration unit. FIG. 13 is a view schematically showing a stacking / unloading device provided in the safe cassette. FIG. 14 is a diagram showing different operation states of the stacking / unloading device. FIG. 15 is a diagram showing different operation states of the stacking / unloading device. FIG. 16 is a diagram showing different operation states of the stacking / unloading device. FIG. 17 is a perspective view showing a bill detecting operation state in the safe cassette. FIG. 18 is a perspective view schematically showing a take-out mechanism having a take-out roller in the safe cassette. FIG. 19 is a perspective view schematically showing a drive system on an accumulation roller side in the safe cassette. FIG. 20 is a block diagram schematically showing the configuration of the entire automatic transaction apparatus. FIG. 21 is a plan view showing the configuration of an internal monitor of the automatic transaction apparatus. FIG. 22 is a plan view showing a configuration of a remote monitor of the automatic transaction apparatus. [Description of Signs] A: Banknote 7: Deposit / Payment Port (Bill Receiving Portion) 12: Receipt / Payment Mechanism 16, 17, 18, 19: Safe Cassette 20, 20, 22, 23 ... Storage Unit 150: Main Control Unit 151 .., Depositing and dispensing mechanism controller 302, collecting roller (take-in means) 304, take-out port (take-out means) 304 a, rubber surface (high friction member) 321, take-out roller lock release solenoid 323, take-out timing detection switch 330, plate 331 ... Lever 332 ... Spring R ... Conveyance path

Claims (1)

(57) [Claims] A storage unit for storing banknotes, and a take-out roller provided in the safe cassette in a state where a part of the outer periphery is exposed from the safe cassette, and a take-out roller for taking out the banknotes stored in the storage unit, A safe cassette provided detachably with respect to the safe cassette, the safe cassette being formed by a part of the take-out roller exposed from the safe cassette and a part of the device main body when the safe cassette is mounted on the apparatus main body; And a banknote transport path for transporting the banknotes taken out of the device, when the safe cassette is mounted on the device main body, while allowing the rotation of the take-out roller, and when the safe cassette is removed from the device main body, An automatic transaction device comprising: a lock means for restricting rotation of a take-out roller. 2. The take-out roller has a high friction member provided in a part of the outer peripheral portion in the circumferential direction, and is configured to sequentially take out the banknotes stored in the safe cassette via the high friction member. 2. The automatic transaction apparatus according to claim 1, wherein: 3. The take-out roller has a high friction member provided on a part of the outer peripheral portion thereof in a circumferential direction, and the locking means is provided when the safe cassette is detached from the apparatus main body, and the high friction member of the take-out roller is removed. 2. The automatic transaction apparatus according to claim 1, wherein the take-out roller is locked at a position where a member is not exposed outside the safe cassette. 4. The safe cassette is provided in the safe cassette in a state where a part of an outer peripheral portion is exposed from the safe cassette, and the exposed part and a part of the apparatus main body form the bill transport path and the banknote. A stacking roller for storing the banknotes conveyed through the conveyance path in the storage unit in the safe cassette, and a rotation of the stacking roller connected to the collection roller and allowing only the direction for storing the banknotes in the storage unit; 2. A one-way clutch for restricting rotation of the stacking roller in a direction opposite to the storage direction.
An automatic transaction device according to item 1.