JPS6086665A - Bankbook detection - Google Patents

Abstract

PURPOSE:To obtain a bankbook detector having a high detection capacity which prevents failure of handling of users, by providing a circuit which uses a CCD image sensor to perform detection of a print line of a bankbook and detection of a page mark. CONSTITUTION:When a customer inserts his bankbook to an insertion slit in accordance with operation guide, data on a magnetic stripe of the bankbook is read by a magnetic head and is supplied to a main control part 201. At this time, a page mark indicating a page number of the bankbook and the last printed line are read by a reading part using the CCD image sensor and are supplied to the main control part 201. The main control part 201 judges whether there is a space in this page or not on a basis of the read last printed line and judges whether the page number of the magnetic stripe and that of the page mark coincide with each other. If they coincide with each other, format check is performed; and if this check results in success, an issue signal is sent to a print controller 203. Then, results of transactions are printed on the bankbook, and a printed slip is issued by a slip issuing device 25. The bankbook is ejected if it is inserted with an erroneous page opened.

Description

[Detailed description of the invention]

[Technical Field of the Invention] The present invention relates to a passbook detection method for detecting page marks and printed lines of a passbook in a passbook handling device such as an automatic transaction machine installed at a bank counter. [Technical background of the invention and its problems] Conventionally, in an automatic transaction device that handles passbooks, for example, the date column, etc., of the print page of the passbook inserted by the user is used to determine the print line that should be printed this time. The line to be printed next is determined by detecting the presence or absence of printing and determining whether the final printing is hard. Recently, COD image sensors have become popular and inexpensive, so CD image sensors are increasingly being used to detect these printed lines. In order to prevent handling errors, a page mark is printed on the passbook, and the page of the passbook opened and inserted by the user is inspected by a device to determine whether the correct page has been opened and inserted. [Objective of the Invention] The present invention has been made based on the above circumstances.
The object of the present invention is to provide a passbook detection method with high detection performance by using an image sensor to detect printed lines and page marks of a passbook in combination with a circuit. [Summary of the Invention] In order to achieve the above object, the present invention uses a CCD image sensor to display the date column and page mark section of a passbook on the same CCD image sensor.
By arranging it so that it is detected by a D image sensor, and by quantizing the output of the CCD image sensor using different threshold levels for detecting printed lines and page marks, it is not affected by dirt or blurring. This makes it possible to reliably detect page marks and printed lines without any errors. [Embodiment of the Invention] Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows an automatic teller machine as an external wall-shaped automatic currency transaction device. That is, a customer service section 3 opened from an outer wall 2 of the building is formed on the front side of a casing 1 installed inside the building. The customer service section 3 is formed approximately at the center in the vertical direction of the casing 1, and has a horizontal operation panel 4 and a vertical IU operation panel 5 rising from the rear edge of the horizontal operation panel 4. It has become. A keyboard 6 consisting of a numeric keypad, etc., and a C) LT display section 7 are arranged on the horizontal dressing board 4, respectively. Further, an envelope takeout section 8 is provided at the bottom of the vertical operation panel 5.
, envelope insertion opening 9, slip extraction opening 10, and banknote extraction opening 1
1. A passbook insertion slot 12 and a card insertion slot 13 are arranged at the top. Further, a speaker hole 14 is provided on the side surface of the customer service section 3, and a speaker (not shown) is built inside the speaker hole 14. In addition, 1 the customer service department 3 has the keyboard, CR,
A curved shutter 15 that can be opened and closed is provided to seal the T display section 7, the envelope takeout section 8, the envelope inserter 9, the slip takeout port 10, the bill takeout port 11, and the speaker hole 14. This curved shutter 15 is perfect for crime prevention, wind and rain!・It is provided for protection from crushing and is made of transparent reinforced plastic in the shape of a part of a cylinder with a certain curvature. A light emitting element 16 and a light receiving element 17 are provided inside both sides of the customer service section 30, and these constitute a foreign object detector 1B for detecting foreign objects such as paper, hands, etc. inside the curved shutter 15. . 2, as shown in FIGS. 2 to 4, inside the housing 1 are a card reading device 21 for reading information on an ID card inserted from the card insertion slot 13, and a card reader 21 designated for the bill extraction slot 11. a dispensing mechanism 22 for dispensing banknotes P of the same amount, and a passbook reading/printing device 23 for reading the magnetic stripe of the passbook inserted through the passbook insertion slot 12 and recording the transaction details in the notebook and journal. Envelopes inserted from the envelope insertion slot 9 are given predetermined printing and taken in, and the envelope processing device 24 is capable of taking out envelopes one by one from the envelope take-out section 8, and transaction details are printed in the slip take-out port IO. Voucher issuing device 25, power supply unit ft2, which issues the created vouchers as necessary.
6, a control device 27, a control panel 28, a shutter receiving mechanism (not shown) for receiving the shutter 15, and the like are accommodated. Only the wall thickness of the part 1 that houses the above-mentioned dispensing mechanism 22 is made thick, and the wall thickness of the part 1 made of a strong material, that is, laminated with cold rolled steel, stainless steel, etc., is about 10 to 30. is constructed of cold-rolled steel with a wall thickness of 1 to 2 mm. This provides the necessary and sufficient housing function for crime prevention. FIG. 5 shows the card reading device 21, and is a conveyance path for cards inserted from the card insertion slot 13. This conveyance path 31 includes a plurality of conveyance roller pairs 32. . . . consists of a trap and the power cord insertion port 13 mentioned above.
Shutter mechanism 33, magnetic head 34, holding section 3 in order from
5 and an embossed part 36 are disposed, and the distal end side faces the collection storage 37. In addition, 38.39°40.41.
The 42 card detector is a well-known circuit consisting of a light emitting element and a light receiving element, and the card detector 38 is for entrance, the card detector 41 is for holding, and the detector 42 is for collecting. The above-mentioned transport roller pairs 32... are each driven by a driving roller 4.
3 and a pinch roller 44. A conveyor belt 45 is wrapped around the drive roller 43, and the pinch roller 44 is connected to the drive roller 4 via the conveyor belt 45.
It is transposed to 3. Further, the drive roller 43 is driven by a pulse motor 46 that can rotate in forward and reverse directions. In addition, a pinch roller 4 disposed on the card insertion slot 13 side
4Fi Pressure force is strong when conveying and weak when not conveying.
- It is now possible to read. The shutter mechanism 33 has a shutter 47 between the pair of conveying rollers 32 on the card insertion slot 13 side and the next pair of conveying rollers 32.
The conveyance path 31 is opened and closed by protruding and retracting, and the pinch roller 44 on the card insertion slot 13 side is interlocked with the pinch roller 44. In other words, the pressing force of the pinch roller 44 is strong when the shutter 47 is opened, and weak when it is closed. The magnetic head 34 is disposed coaxially with a pinch roller 44 of the pair of conveying rollers 32, and when the magnetic head 34 processes information, the pinch roller 44 is the only trap to hold down the card so that the conveying force of the card does not change. It is designed to be transported by The holding section 35 is formed on the conveyance path 31, and can temporarily hold cards on the way to being conveyed. The embossing section 46 is adapted to copy the account number etc. recorded in a concave and convex shape on the card into a slip or the like. The collection warehouse 47 stores and stores collected cards.
[7. When a card is inserted from the card insertion slot 13 and the card detector 38 detects the insertion of the card, the pulse motor 46 is activated and the shutter 47 is opened to take in and transport the card. Then, while being transported, information is processed by the magnetic head 34, and the embossed part 36
It will be temporarily suspended. Therefore, after the embossing operation is performed, the pulse motor 46 is reversed to return the card to the card insertion slot 13, and the card is returned or collected. That is, first, a card discharging operation is performed. and,
After the card is detected by the card detector 38 for a predetermined period of time, the pulse motor 46 stops and the shutter 47 closes. At this time, the card is held with a portion protruding from the card insertion slot 13. When the card detector 38 detects that the card has been removed by the customer, the transaction ends and the next transaction begins. It becomes possible to execute from the step. On the other hand, when the card is detected by the card detector 38 for a predetermined period of time, the pulse motor 46 is started and the shutter 47 is opened to take in and convey the card. Then, after the card detector 41 detects the card for a predetermined period of time, the pulse motor 46 stops. At this time, the card is placed in the holding section 35 and held. Next, when the customer realizes that he has forgotten to take the card, the customer presses down on the keyboard 6 to enter return request input data, such as an ID number, and this input ID number is still valid for transactions made with the card. If the related information matches the ID number stored in the card IL, for example, the pulse motor 36 is activated to return the card held in the holding unit 35, the card is ejected, and the above-mentioned Stellaf' is repeated. It will be done. Therefore, it is possible to reliably and automatically return the card that was put on hold due to forgetting to take it to the user who forgot to take it. Further, if the input ID number and the ID number recorded on the card do not match, this check can be performed up to three times, and if they do not match even after pressing the button three times or more, the transaction will be stopped. On the other hand, if the next customer presses the item button to start a transaction before entering the ID number, the pulse motor 46 is activated and the previous customer's reserved card is transferred to the embossed part 3.
6 and the card unloader 42, and are collected into the collection warehouse 37. At this time, for example, when a payment operation is performed, after pressing the ridge button, the next customer's card retrieval operation will normally move in a short time, but in the same N feed path 31 and in the card retrieval direction. Since the card collection direction and the collection direction are set to one, the collection operation of the previous customer's card and the operation of taking in the next customer's card can be performed simultaneously by simply rotating the pulse smoke 46 in a predetermined direction. Then, once the card is collected, the next transaction step takes place. The AT metal mechanism 22 is divided into two parts, a first unit device 51 and a second unit device 52, as shown in FIG.
Lower first unit device 51 with cash withdrawal box 53,54
The second unit device 52 on the upper side can be rotated by 180 degrees. Above 1. The second unit devices 51 and 52 will be explained based on FIG. That is, the first unit installation @51
First and second cash withdrawal boxes 53 and 54 are arranged vertically in the front part (on the right side in the figure), and for example, 10,000 yen bills P are placed in the upper cash withdrawal box 53, and 1,000 yen banknotes P are placed in the bottom side. The money is stored in the cash withdrawal box 54. These, 1st. Second withdrawal box 53.5
A mechanism 55 for taking out the stored banknotes P.
A backup mechanism 56 for pressing the banknotes P with an appropriate pressure on the removal mechanism 55 side is incorporated, so that ten thousand yen banknotes P or thousand yen banknotes P can be selectively taken out. Also, a first unit device 510 is attached to the ridge portion (left side in the figure) of the first unit device 510. A supply conveyance path 57 is formed for supplying and conveying banknotes P selectively taken out from the second cash withdrawal box 53, 54 to the second unit device 52 side. This supply conveyance path 5
A first dedicated conveyance path 57a for conveying ten thousand yen banknotes P taken out from the first cash withdrawal box 53, and a second cash withdrawal box 54.
The 1,000 yen bill P... taken out from the
Ten thousand yen banknotes P..., thousand yen banknotes P that were transported and burnt by 57b
It is constituted by a common conveyance path 57c that continuously conveys... Dedicated conveyance path 57aKJd for the above P and l First cash withdrawal box 53
a banknote detector 58 that detects the removal of the ten thousand yen banknote P from the
Bill detectors 59 for detecting the removal of 1,000 yen bills P from the second cash withdrawal box 54 are arranged in the second dedicated conveyance path 57b, and the common conveyance path 57c detects the stacking of banknotes P. A banknote detector 60 and a banknote detector 114 that detect removal, folding, tearing, etc. are arranged in sequence. In addition, the first dedicated conveyance path 57a includes a first conveyor belt 61, 61 (only one shown) and a second conveyor belt 62.
．． 62 (only one shown), the second dedicated transport path 57b is connected to a third transport belt 63, 63 (only one shown) and a fourth transport belt 64, 64 (only one shown) The common conveyance path 57c is a first conveyor belt 61.61 and a third conveyor belt 63.
63 and the first conveyor bell) 61.61
and a fifth conveyor belt 65°65 (only one of which is shown) are formed to face each other. Each of the conveyor belts 61 to 65 is a-
The driving force of the motor 67 is transmitted to some of the wheels 66 through the power transmission system 68, so that each of the wheels 66 runs in a predetermined direction. Further, the common conveyance path 57c conveys the banknote P upward along the front end surface of the first unit device 51, and then conveys it almost horizontally and rearward. The section includes a first unit which is selectively used for carrying out banknotes P... to the second unit device 52 side.
．． @2 bill ejection portions 59 and 70 are formed. In other words, the first banknote discharge section 69 is connected to the third conveyor belt 63.6.
The middle part of the first conveyor belt 61.61 is pushed into the space 71 formed between the folded part of No. 3 and one folded part of the fifth conveyor belt 65.65 through the push roller 72. The first kite plate 73 is arranged in the second banknote discharging section 70 and the first conveyor belt 61 is placed on the other folded part of the fifth conveyor belts 65, 65. .61 is supported by rollers 66 and a second kite board 74 is arranged along the middle part of the kite. Further, the second unit device 52 is configured as follows. That is, in the center part of the second unit device 520 in the front-rear direction (the center part in the left-right direction in the figure), there is a take-in conveyance path 7 for upwardly taking in and conveying the payment banknotes P received from the banknote receiving part 75.
7 is formed. A first distribution gate 78 is arranged at the end of the intake conveyance path 77.
When the leading edge of the banknote P reaches the banknote detector 79 disposed in the middle of the banknote detector 79, a rotary lenoid or the like is used to selectively feed the banknote P into the genuine banknote transport path 80 or the rejected banknote transport path 81. Switching is performed via a gate actuating device 82. The intake conveyance path 77 is formed by mutually opposing parts of the sixth conveyor belt 83 and the seventh conveyor belt 84,
The genuine banknote transport path 80 is formed by the top surface of the upper horizontal part of the sixth transport belt 83.83, and the mutually opposing part of the eighth transport belt 85.85, which overlaps a part of the top surface of the upper horizontal part. In addition, the rejected bill conveyance path 81 is a mutual connection between the upper horizontal part of the seventh conveyor belt 84.84 and the ninth conveyor belt 1, 86.86, which is partially overlapped with this upper horizontal part. It is formed by opposing parts. Each of the conveyor belts 83 to 86 is wrapped around a roller 8.
The driving force of the motor 88 is transmitted to some of the motors 7, . Further, impellers 90 and 90 are provided at the terminal end of the genuine banknote conveyance path 80.
are arranged, and each blade 90 of the impeller 90.
3.9 (l) 3, and as it rotates, it is transported to the temporary stacking section 91, and the bill P is separated from the impeller 90.90 by the separation stopper 92.92 to form the lower side of the temporary stacking section 91. Payment EI: 1, conveyor belt which also serves as collection) 93.93. The conveyor belt 93 for both dispensing and collection is wrapped around a roller 98 placed near the banknote ejection port 11 and a roller 99 placed near the banknote receiving section 75, and is placed on the top side of the banknote ejection port 11 side. The pinch roller 100 is
Further, on the side of the banknote receiving section 75, the sixth conveyor belts 83 and 83 are in a superposed state, respectively. Thus, the banknotes P... accumulated in the temporary accumulation section 91 are moved by the pressing operation of the separation stopper 92, which functions as a pressing body, and by the selection of the dispensing direction or the collecting direction of the conveyor belt 93, 93 which serves both dispensing and collecting. Along with the running movement, the bills are taken out in a batch to the banknote takeout port 11 side or to the collection warehouse 101 side, which will be described later. Also, between the pinch roller 100 and the temporary stacking section 51, there is a banknote outlet 11tC where a group of new banknotes P and
A banknote detector 102 is arranged on the side of the banknotes to detect the edges of the banknotes and stop the running operation of the conveyor belts 93, 93. Further, a shutter 104 that is opened and closed by a solenoid 103 is arranged between the bill outlet 11 and the pinch roller 100, and a bill detector 105 is arranged on the rear side of the shutter 104. On the other hand, if the banknotes P... dispensed to the banknote ejection port 1 are forgotten, or if two rejected banknotes P... are stacked in the temporary stacking section 91 by mistake. In this case, these banknotes P are transferred to a collection warehouse 101 provided at the rear of the second unit device 52 via a collection conveyance path 106.
It is designed to be transported to be stored at This recovery conveyance path 106 is a conveyor belt 93.93 used for both dispensing and collection.
the upper surface part, the taking-in conveyance path 77, the rejected banknote conveyance path 81,
and the ninth conveyor belt 107 is polymerized.
It is formed by the rear lower surface portion of the conveyor belt 86 , and its terminal end faces the collection warehouse 101 . Further, a second sorting gate 109 operated by a solenoid 108 is provided near the terminal end of the rejected banknote transport path 81 that forms the middle part of the collection transport path 106 . Then, the stacked rejected banknotes P... are placed in the front part of the collection N101 and transferred to the extract storage 110, and the collected banknotes P.. are transported straight to be stored in the collection storage 101, respectively. It is designed to sort P... Further, the genuine banknote (a banknote detector for detecting the passage of the banknote P on the conveyance path in the middle part of the bank transfer 1i80) 11 is installed, and the banknote P...・
A banknote detector 112 is arranged to detect the passage of banknotes P on the transport path, and a banknote detector 113 is arranged in the middle of the collecting roller/transport path 66 to detect the passage of banknotes P on the transport path. Note that the banknote detector 28.29, 79°102.11
1. ]12.113.114 has a well-known structure consisting of, for example, a light-emitting element and a light-receiving element.0 FIG. That is, a pair of optical detectors 121 are provided inside the passbook insertion slot 12 and in contact with the passbook insertion slot 12 . The detector 121 is composed of a light source 122 and a light receiver 123. From this detector 121 to the inside of the device 23 is a conveyance path 124.
is provided. The conveyance path 124 includes rollers 125.1
A belt 126 stretched between 25 and a pinch roller 127
and upper and lower guide plates 128 and 129. Further, the kite board 128 is provided with a reading unit 148 that optically reads the page mark indicating the page number of the inserted page of the passbook and the final print mark, and the kite board 129 is provided with a reading unit 148 that reads the data of the magnetic stripe of the passbook. A magnetic head 147 is provided. The pinch roller 127 is connected to the roller 125 by the spring 130.
The zero roller 125, which is biased toward the side, is driven by a pulse motor 132 via a belt 131. Conveyance path 1
A platen 133 is positioned such that its peripheral surface protrudes above the conveyance reference plane S of 24. Before and after the platen 1330, there is a pair of presser kites 13 that hold down the bankbook that is tilted upward toward the platen 133.
4 are provided. Furthermore, a printer 135 is provided opposite the platen 133 via the conveyance path 124. This printer 135 consists of a print head 136 and a carriage 138 that extends over a slide rod 137 and moves parallel to the platen 133 while holding the print head 136. This carriage 138 is driven by a pulse motor (not shown). Furthermore, platen 1
A journal paper 139 is wound around the paper 33. A journal paper 139 is wound and held on a delivery shaft 140, and is wound onto a take-up shaft 141 via a platen 133.
, 0-gear single paper 139 is pinched and conveyed by a feed roller 142 and a pinch roller 143 facing thereto. The pinch roller 143 is fed 90 by the spring 130.
- It is biased toward the ra 142. Inclusion roller 142
P and the winding shaft 141 are driven by a pulse motor 146 via bells 144 and 145. Note that the winding shaft 14
1 rotates at a higher speed than the feed roller 142, and its load is heavy, f! The belt 145 is designed to slip. Figure 8 shows the envelope processing device (6), 0, i.e.
An envelope issuing device 150 is provided inside the needle extractor (for example) handle 8. This envelope issuing device 150 issues envelopes one by one to contain cash for deposit, and is configured such that envelopes cannot be taken out except during deposit transactions. The envelope issuing device 150 has a spring 152 installed in the hopper 151 as shown in FIG. '
A push plate 153 is provided which is pressed by a pusher 152, and an unused envelope is placed on this push plate 153. Both end traps of the handle 8 are fixed at one end of the slideable handle 111i11156.156 through an opening 1'54.154 provided in the customer service department 3. The shafts 156 and 156 are slidably supported by supports 157 and 157 provided on the upper part of the hopper 151. A board 158 is provided to extend over the envelope handle fl:l.
It has a letter-shaped configuration, and its @L approximates the thickness of an envelope-mail. The above envelope take-out plate 158
The top of! L is provided with a lock pawl 158a. −
1: There is a solenoid 159 on the right side of the hopper 151 in the diagram.
Is it provided? This solenoid 159 moves the granger 160 up and down in the directions of arrows a and b in the figure in response to its excitation. This Granger 160
A connecting lever 161 is connected to the connecting lever 1.
It is connected to a protrusion 155a on the 61-piece lock arm 155. One end of the lock arm 155 is K-shaped so as to engage with the lock pawl 158a, and the other end of the lock arm 155 is connected to the plate 16 fixed to the hopper 151 via a keg 162.
It is designed to be connected to 3. Lock arm 1 above
The connecting lever 161 moves 1 (accompanied by rotation in the directions of arrows c and d in the figure) using the protrusion 163a provided on the plate 163-A as a fulcrum. Afterwards, the handle 80 can be returned to its original position either by the customer or automatically by a spring (not shown). In other words, this is a conveyance path for the envelopes inserted from the envelope insertion opening 9.This conveyance path 65 is a pair of conveying rollers 166 with multiple bushes, . . . and upper and lower guide plates. 178°179, and the shutter mechanism 1 is inserted from the insertion opening 9 to 110.
67, and the printing section 168 are disposed, and the terminal M mark 11 faces the +17 display collar 169 [7]. It's # near Juki envelope insertion melody 9! A thickness detector 200 is provided to detect whether the thickness of the envelope is greater than or equal to the thickness of the envelope as the transport roller 66 and the pinch roller 174 move. Note that envelope detectors 170, 171, and 172 are well-known circuits consisting of a light emitting element and a light receiving element, and the envelope detector 170 is used for entrance, and the card detectors 171 and 172 are used for printing. The transport roller pairs 166, . . . each include a drive roller 173 and a pinch roller 174. The drive row 2173 has a conveyor belt 1
The pinch roller 174 is in rolling contact with the drive roller 173 via the conveyor belt 175. Furthermore, the drive roller 173 is driven by a pulse motor 176. The shutter mechanism 167
#-1 to envelope insertion slot 9 and conveyance roller pair 166! -77)
The conveyance path 165 is opened and closed by protruding and retracting the shutter 177 in between. The printing section 168 is configured as shown in FIG. That is, an index stamping part 180 is provided in which numbers are stamped on the outer surface of the circumference. This index stamping part 180 is attached to a guide roller 181. It is now kited by... The index stamping section 180 is configured to move up and down as the cam plate 182 rotates about the shaft 182a. A connecting lever 183 is attached to the projection 182b of this cam plate 182.
The connecting lever 183 is urged in the directions of arrows e and f in the drawing by a spring 184 connected to one end thereof, and a granger 185 is connected to the other end thereof. This plunger 185 is adapted to move in the directions of arrows g and h shown in the figure by the excitation of a solenoid 186. When the envelope detector 171 detects the leading edge of the envelope, the pulse motor 176 is stopped and the solenoid 186 is operated to move the index stamping unit 180 to stamp a stamp on the envelope, and then the pulse motor 176 is activated. When the envelope detector 172 detects the leading edge of the envelope, the pulse motor 176 is stopped again and the solenoid 186 is activated.
□The storage hopper 169 sequentially stores the envelopes supplied from the transport path 165, and the guide Board 187,
A mounting table 188, a holding member 189 for storing an envelope in an upright position on this mounting table 188. and holding member 18
9 in the directions of arrows i and j shown in the figure. FIG. 11 shows the shutter receiving mechanism 1 of the curved shutter 15.
91. That is, the curved shutter 1
5 is in the shape of a part of a cylinder having a certain curvature, and is held by the internal roller pair 192.1g2 of the mounting body 1, and is inserted into the housing 1 through the opening 5a of the vertical operation panel 5. and the customer service section 3 are slidably provided. On the other hand, a partition plate 193 provided in the central part of the housing 1
An upper DC motor (drive section) 194 is fixed. A rubber roller 195 is fixed to the rotating shaft of this DC motor 194, and a rubber roller 196 is fixed to this rubber roller 195.
are connected. The rubber roller 196 is connected to a transmission member 15a, for example, a plastic plate, provided at a portion of the lower portion of the curved shutter 15. This results in
According to the rotation of the DC motor 94, the curved shutter 15 moves in one direction as indicated by the arrow in the figure. When the curved shutter 15 covers the customer service surface 3, a detector 197 for detecting the closure of the curved shutter 15 is provided near the end of the housing 1, and a locking mechanism 198 for locking the curved shutter 15. A detector 199 for detecting opening of the curved shutter 15 is provided near the end of the curved shutter 15 when the curved shutter 15 is housed in the housing 1. The detectors 197 and 199 are constituted by, for example, microswitches, and are turned on or off by the curved shutter 15. The locking mechanism 198 locks the opening 1 of the curved shutter 15.
A fitting member 198a that fits with 5a, this fitting member 198
It is constituted by a solenoid 198bK that moves up and down in the direction of the arrows o and p shown in the figure. Note that the shutter receiving mechanism 191 is provided between the units or between the units and the partition plate. FIG. 12 schematically shows the electric circuit. That is, the main control unit 201 controls the entire system, and the main memory 202 is composed of, for example, a ROM (read-only memory) and stores control programs.The print controller 203 is the main controller. Depending on the signal from the memory 201, print data corresponding to the English language in the memory 204 is output, or the memory 2
It outputs print data according to the Japanese pattern of 05, and the driver 206 and the glint roller 203
The passbook reading/printing device t23 according to the print data from
The driver 2 drives the printer 135 in the
07 is for driving the printer in the slip issuing device 25 in response to the print data trap from the print controller 203. Operation/Guidance Glint Controller 208Fi
It outputs display data according to the Japanese pattern in the memory 209 or the English pattern in the memory 210 according to signals from the main control section 201, or outputs operation data or voice selection signals according to the human power of the keys on the keyboard 6. , the driver 211 is the operation/guidance controller 208
The CRT display section 7 is driven in accordance with display data or operation data from the CRT display section 7. The voice synthesizer t212 outputs a voice signal corresponding to Japanese voice data or a voice signal corresponding to English voice data to an amplifier 215 in response to a control signal from the main control unit 201 or a voice selection signal from the operation/guidance controller 208. via speaker 216
Rather than outputting information to the user, the speaker 216 generates audio guidance. Since the speaker 216 is housed within the curved shutter 15, it is protected from rain and wind and has a long lifespan. The driver 217 drives the motor 183 in the forward or reverse direction in response to an open or close signal from the main control unit 201, and drives or stops the motor 183 in response to a detection signal from the current detection circuit 218. be. The current detection circuit 218 is the driver 2
17, and the current is detected at different detection levels depending on whether the motor 183 is being driven in the forward direction, that is, in the m direction shown in the figure, or when it is being driven in the reverse direction, that is, in the n direction shown in the figure. It looks like this. On the other hand, when the inter-song shutter 15 is closed and the foreign object detector 18 detects a foreign object, the main control section 201t activates the timer circuit 219, and after a predetermined time elapses, the timer circuit 219 supplies electricity. A closing signal for the curved shutter 15 is output to the driver 217 in response to a timeout signal. 'In addition, the Monarchy (Intellectual Property) Department 201 uses modem 2.
20 performs data transmission with the central processing unit 221. The central processing unit 221 includes a modem 222 that controls data transmission, a host computer 223 that controls data processing, and a transaction information file 224 that stores transaction information. The speech synthesis device 212 will be explained in detail using FIG. 13. That is, the selector 230 is Japanese from the operation/guidance controller 208. The main control unit 201 responds to a selection signal for selecting English audio.
This is to output the start address of the voice to be generated from the memory 231 or to the memory 232. The memory 231 stores data consisting of four types of audio parameters corresponding to various Japanese sounds, such as fundamental frequency representing vocal tract characteristics, voiced/unvoiced sound, and sound source width. Reference numeral 232 stores data consisting of four types of audio parameters corresponding to various English voices, such as fundamental frequency representing vocal tract characteristics, voiced/unvoiced sound classification, and sound source amplitude. The outputs of the memories 231 and 232 are supplied to a decoding circuit 234 via an interface circuit 233. This decoding circuit 234 converts the supplied audio parameters into serial data using a decoding table corresponding to each parameter. The output of the decoding circuit 234 is output to an interpolation circuit 235. This interpolation circuit 235 is used because the audio parameters are updated periodically and each audio parameter is changed smoothly without extreme changes when moving from one update period (one frame) to the next. In this method, approximately linear interpolation is performed at any number of points within one frame for all audio parameters of a predetermined bit. The sound source information output from the interpolation circuit 235 is transmitted to the sound source circuit 23.
This sound source circuit 236 outputs a periodic impulse signal (white noise signal) as a sound source signal in accordance with the supplied sound source information. The above sound source circuit 23
The output of 6 is supplied to a digital filter circuit 237, which synthesizes an audio signal by adding the correlation removed in the analysis process from the interpolation circuit 235 according to the filter coefficient. An example of this is a well-known one constituted by a big-line multiplier, an adder/subtractor, and a delay circuit (not shown). Each bit output of the digital filter circuit 237 is supplied to a digital-to-analog converter (D/A converter) 238. The signal converted by the D/A converter 238, that is, the synthesized audio signal, is sent to the amplifier 215. The signal is amplified and supplied to a speaker 216, where a corresponding sound is generated. FIG. 14 shows the electrical circuit of the shutter receiving mechanism 191. That is, both ends of the AC power supply 2400 are connected to the DC input terminal of the rectifier circuit 241. The positive side DC output terminal P of this rectifier circuit 241 is connected to N through a resistor 242.
Connected to the collector of PN type transistor 243. A constant voltage circuit 244 is connected between the base of this transistor 2430 and the negative side DC output terminal N of the rectifier circuit 241. A series circuit consisting of resistors 245 and 246 is connected between the emitter of the transistor 243 and the output terminal N,
The driver 217 and the resistors 247, 248, 24
A series circuit consisting of 9 is connected. The output end of the constant voltage circuit 244 is connected to the connection point of the resistors 245 and 246. The driver 217 drives the motor 183 in the forward or reverse direction according to the opening/closing drive signal from the main control section 201, and also drives the motor 183 in the forward or reverse direction.
The motor 183 is stopped in response to an output signal from the motor 183. A switching contact 2501 of a changeover switch 250 is connected to the connection point of the resistors 247 and 248, and a changeover contact 2502 of the changeover switch 250 is connected to the connection point of the resistors 248 and 248.
Connected to 49 connection points. The changeover switch 250 is switched by an opening/closing drive signal from the main control section 201. On the other hand, there is a resistor 25 between the output terminals P and N.
1 is connected, and a resistor 252 is connected between the collector of the transistor 243 and the output terminal N. Above output terminal P
The non-inverting input terminal of a differential amplifier 253 is connected to the connection point between and the resistor 251, and the connection point between the collector of the transistor 243 and the resistor 252 is connected to the inverting input terminal of the differential amplifier 2530. The differential amplifier 253 has a resistor 2
The current value obtained by subtracting a predetermined current value from the current value at 42 is output. The output terminal of the differential amplifier 253 is connected to the inverting input terminal of the differential amplifier 2540, and the non-inverting input terminal of the differential amplifier 254 is connected to the selector switch 254.
○The above differential amplifier 2 to which the movable contact 2503 of 0 is connected
The output terminal of 54 is connected to the input terminal of the driver 217. Note that the output of the differential amplifier 254 is supplied to the main control section 201 as a stop signal.
Next, in such a configuration, FIG.
The operation will be explained while wearing the flowchart shown in ). For example, first of all, the customer (customer) should check the CI and T display section 7 for the ``insert card or passbook''.

The user inserts the card into the card insertion slot 13 after reading the operation guide (STI) "Please enter 7" (Sr2). Then, the data on the magnetic stripe of the card is read by the magnetic head 34 and supplied to the main control section 201. As a result, the main control unit 201 checks the validity of the card (Sr1
). At this time, when the main control unit 201 determines the validity of the card, it outputs an issue signal to the print controller 203. Then, the print controller 203 reads a character pattern corresponding to the account number, bank code, and branch code read by the card reader 21 from the memory 204 and outputs the display pattern to the driver 206. As a result, the driver 206 uses the printer 13 in the passbook reading/printing device @23.
In step 5, the above data is printed on the journal paper 139 (8T4). When the main control unit 201 determines the validity of the card (Sr5), it excites the solenoid 198b and moves the fitting member 198b upward, so that the fitting member 198b opens the curved shutter 15 at the opening E1. It will no longer fit with the portion 15b. As a result, the curved shutter 15 is unlocked. Thereafter, the main control unit 201 outputs a drive signal to the driver 217 to rotate the motor 194 in the direction of arrow m in the figure. Then, as the motor 1940 rotates, the rubber roller 195°196 rotates, and the curved shutter 15 moves in the direction of the arrow (ST15). Also, when the main control unit 201 determines that the card is invalid (8T5), CR1
Display section 7 will display the message "Your card is on hold" (5T6), and you may take the card into the aircraft (return one card to the passenger (8T7). By the way, if the passenger presses CR1 display section 7 “
Card or: σt 4! Please insert your bankbook into the passbook insertion slot 12 after reading the operation guide (STI).
(Sr8), the data on the magnetic stripe of the passbook is read by the IR head 147 and supplied to the main control unit 201. The mark indicating the page number and the final print mark are read by the reading unit 148 and supplied to the main control unit 201.As a result, the main index 1 section 2011d checks the final print mark, and the page is printed at the end of all lines. A passbook check is performed depending on whether the bankbook is printed, half of the line has been printed, or all lines have been erased (ST9).
. That is, as shown in FIG. 15(r), the reading section 14
Based on the last printed line read in step 8, it is determined whether the page can be used or not (ST271). In the case of a page that cannot be used, regardless of the number of magnetic stripes, it is determined whether the page that has been printed up to the halfway point is considered a new page (ST 27
2. ). At this time, if the last printed line is the last line, the CRT display unit 7 of the main control unit 201 displays an operation guide saying ``Please insert the passbook on the next page'' (ST276). At this time, the main control unit 201 determines whether the page number on the page mark is larger than the page on the magnetic stripe (8T277).
, the number of pages on the magnetic stripe is updated by one page using the magnetic head 147 (S'T278), and the passbook is ejected from the passbook insertion slot 12 (8T279). On the other hand, when determining whether or not the page is a new page (ST272), the main control unit 2
1 determines whether the negative number on the magnetic stripe matches the page number on the page mark (81'273). If they do not match, the main system (assets) department 201 displays the operation guide "Please insert the passbook on the previous page" on the CI' (T display section 7) (ST274), and inserts the passbook from the passbook insertion slot 12 for the first time. (ST275). As mentioned above, if a page with all lines blank is inserted and the negative number on the magnetic stripe does not match the negative number on the p mark, the passbook is returned to the customer and the previous page is opened. (2) If all lines on the previous page are erased, the number on the magnetic stripe is rewritten to the next page and the passbook is returned to the customer again. When a page is opened and inserted, the negative number on the magnetic stripe matches the page number on the page mark, and the page is determined to be legitimate, and the transaction can be made.As a result, the write function of the magnetic stripe is disabled. In financial institutions where automated teller machines with automatic teller functions and automated teller machines without writing functions are used together, bankbook printouts may occur if a customer accidentally opens and inserts the wrong page. Loss of continuity can be avoided.Also, if the main control unit 201 determines that the page is usable (ST
271), when it is determined that the number of pages on the magnetic stripe and the number of pages on the page mark match (8T273),
The main control unit 201 outputs an issue signal to the print controller 203 when checking the bankbook. Then, the print controller 203 controls the magnetic head 1.
A character pattern corresponding to the account number, bank code, and branch code read in step 47 is read out from memory 204 and its display pattern is output to driver 206. This results in
The driver 206 is the printer 1 in the passbook reading/printing device 23.
At step 35, the above data is printed on journal paper 139 (8T1o). When the main control unit 201 determines the format of the passbook and the validity of the passbook (ST11, ST12), it operates in the same manner as in the case of the card described above and opens the curved shutter 15 ((ST
15). In addition, if the format of the passbook is incorrect, that is, there is an error in the insertion direction of the passbook, an illegal homepage, no member mark, etc.
If a page error occurs, the main system (financial) department 201 determines that the passbook is sufficiently usable (b'f 31) and displays the CRT.
A message indicating that the passbook is fully usable is displayed on the display section 7 (ST32), and the passbook is ejected from the passbook insertion slot 12. When the main side wound 201 determines that the passbook cannot be used and is not a new negative (ST31.34), the CRT
The display section 7 displays the operation guide "Please reinsert the passbook" (ST35), and the passbook is ejected from the passbook insertion slot 12. Finally, when the main control unit 201 determines that the passbook cannot be used and the page is new (ST31.34
), C[(, Please reinsert on the previous page in T display section 7."
This operation guide is displayed (ST36), and the passbook is ejected from the passbook insertion slot 12. Next, when the customer takes out his passbook in response to the above-mentioned operational guidance (ST33),
Return to waiting for customers (ST1) again. However, even if a predetermined period of time has elapsed since the passbook was ejected; if the insect book is not removed by the customer V, the timer circuit 219 is activated when the passbook is ejected, and the timer circuit 219 is activated within the predetermined time. When a sampling signal is not supplied from the light receiving element 123 in the passbook reading/writing device #23, a passbook collection operation to be described later is performed. In addition, when the main side wholesaler 201 determines that the passbook is invalid (S T 12), the passbook will be displayed on the T display section 7 (5T13). The passbook is taken into the body or the passbook is returned to the customer (S'l'14).Then, the main control unit 201 causes the CRT display unit 7 to display the operation guide “Please enter your PIN number.” (S 'II' 16).Then, when the customer enters the PIN number using the keyboard 6 (8T17), the signal is sent from the operation/guidance controller 208 to the main control unit 20.
1 is output to 0. Thereby, the main control unit 201 determines whether the PIN number or passbook read by the card reading device 21 matches or is related to the PIN number read by the reading/printing device 23 and the PIN input by the keyboard 6. is checked (ST18). If they match, or if the relationship satisfies predefined rules, the monarchy AT department 201 determines that the customer is the correct holder of the card or passbook, and checks whether the retry counter is "3". If it is not r3J, set the retry counter to "3" (ST19), and if it is "3", proceed to the next step. In addition, when there is no match or there is no correlation, count down the counter 201 on the 1till ii + t + section 201 (5T21), and check whether the retry counter is "0" (ST22).
). When it is "0", the main Illia1 unit 201 rewrites the retry counter to "0"5T23), ca'
i' Select "Hold your card or passbook" on display 7.
A message is displayed (ST24), and the card or passbook is collected (ST25-27). When the retry counter is other than "0", the main control unit 201 indicates that the password is incorrect. Please enter the PIN again or press the cancel button.'' is displayed on the CRT display unit 7 (S'l'28) o When the cancel button is pressed, the main control unit 201 performs a retry Rewrite the counter 5T30) o Next, a card or passbook removal operation, which will be described later, is performed. When the password is input again, the operation starts again from step 17. Then, after rewriting the retry counter to "3" (
ST20), the main control unit 201 checks whether it is a card or not (5T34), and in the case of a transaction using a card, the account number on the card's magnetic stripe, that is, the representative account of multiple accounts, is sent to the host: I7 Hue 1223 K Send't le (ST35). Then, the host computer 223 transmits a plurality of account numbers corresponding to the representative number stored in the transaction information file 224, the account type for each account number, and an account status signal to the main control unit 201. As a result, the main control unit 201 receives those messages (5T36),
Determine the status of the account (ST37) o Determine that the status is transaction completed ``'40'' until the final message 1. If so, the main control unit 201 checks whether the account number is 1 (ST
38). If there are multiple units, the main controller 201 analogy is the first one.
Figure 6 ((As shown, select one trading account from the accounts below on the CRT display section 7) and instructions for the trading account selection key are displayed (S 'l' 39
). This type of display is defined as a multi-account system. This multi-account system does not require the customer to have multiple cards and allows the customer to easily select a desired account. At this time, if an account is not selected for a predetermined period of time or more, a card collection operation, which will be described later, is performed. In addition, when it is determined that the account status in the Message from the Clerk's Office vA1 Department 201 is ``42'', the CRT display section 7 shows that the cause of the failure, that is, the account is unrecognizable or the card has been stolen. , or "Request not permitted" is displayed (ST41). In addition, please check whether the card collection flag in the message for the monarchy group 201 is 1” or 0# (ST 42), and collect the small card with '1#5.
T43), at O#, insert the card into the card insertion slot 13
Let it be discharged from. At the time of this ejection, if the eleventh customer takes out the card (5T41), the card will be placed on standby for the next customer, and if the card is not taken out for a predetermined period of time or more, the card collection operation described later will be performed. Then, the customer selects the transaction account displayed on the CRT display section 7 (ST40). If there is only one transaction account and an Arike passbook is inserted, the Monarchy Department 201 is displayed on the CRT display section 7.
The display section 7 displays the guidance "Please select a transaction type" and also displays the selection key for the transaction type corresponding to the transaction account (8T45゜46)0
For example, if the transaction account is a savings account, as shown in Figure 17, [Payment, Deposit, Transfer, Transfer, Balance Inquiry, Statement Request, Checkbook Request], and if the transaction account is a current account, [Payment, Deposit, Transfer transfer, balance inquiry, passbook request"; for credit accounts, r(+f people, return of cash, withdrawal of funds, request for statements); for passbooks, "payments, deposits, transfers,
Instructions for selecting the "Passbook Entry" and "Passbook Study" selection keys will be displayed. In this way, by making it possible to select only the transaction item depending on the account type associated with [JB I can do it. When this selection is displayed, if the customer does not select a transaction account even after a predetermined period of time has elapsed, a card or passbook collection operation, which will be described later, is performed. Then, the customer selects the transaction item displayed on the CRT display section 7 by inputting the keyboard 60 (8T
47). At this time, the main control unit 201 checks the selection (s'r, t 8 ) and also checks whether the selection is valid (ST49). If it is not a valid selection, i.e. a hardware malfunction, a bill, an end of an envelope, or an empty envelope is detected. S case, main side (goods) department 201 is CR
'1' Is the information displayed on the display section 7 'Cash will be released, please press the cancel button' (ST50) or 'Cash will be released.
A message saying "Unable to proceed with the request, please press the cancel button" is displayed (ST51).
o When the customer inserts the cancel button according to this guidance (ST52), the next step is to remove the card or passbook, and if the 1ν delete button is not inserted after a predetermined period of time, the card or passbook is retrieved. will be held. The above-mentioned take-out operation is as shown in Figure 15 (E). That is, the main flj January wholesale department 2011dCR, T display section 7 displays the operation guide ``Please remove your passbook or card.'' 1. (8T183), the card is ejected from the card insertion slot 13 or the passbook is ejected from the passbook insertion slot 12. The customer takes out a card or bankbook in accordance with the operational guidance (ST185 and 186). As mentioned above, if the transaction becomes impossible to continue during the transaction, the customer presses the cancel button and then returns the passbook or card. The content must be read to ensure that the customer is informed of the cause of the transaction interruption. Then, when selecting the transaction item, when the key 6 corresponding to the payment is inserted, check whether a card for the monarchy is inserted (ST53), and if it is a card, the status of the account number is displayed in the message. Check by status signal (
ST54). If the status signal indicates an account for which payment is not permitted11, the XII main system unit 201 should display the message "Account not permitted" on the CRT display unit 7.ST
'65), in the case of "2X", the information that "it is not recognized as a regular deposit" is displayed (ST69). After these instructions, if no operation is performed for a predetermined period of time, a card return operation is performed. However, if you press the castle erasing button after the above guidance (ST66), the CRT display unit 7 will display a message that says, ``The master-side wound section 201 will return one card.''
T67), the card is ejected into the card insertion slot 13. During this ejection, the customer should take out the card (5T68)
When this is done, the card is placed on standby for the next customer, and if the card is not taken out for a predetermined period of time, the card collection operation described later is performed. In addition, if the payment is possible and the payment is made at a location other than the bank account, or if a bankbook is inserted, the main control unit 201 and CRT display unit 7 will display ``Please insert the amount.'' A copy guide is displayed (ST55). Thereafter, when no operation is performed for a predetermined period of time or more, a card or passbook collection operation is performed. Then, when the customer inputs the payment amount using the keyboard 6 (ST56), the main control unit 201 checks whether the payment amount exceeds the limit (5T57), and if it does, the CRT display unit 7 displays "Amount of Money". The operation guide ``The limit has been exceeded, please input the amount again'' is displayed (ST58). Also, if the amount does not exceed the limit, check whether the 1,000 yen bill is in the deposit box in the royal system@+ department 201 (5T63), and if not, check if it is in units of 10,000 yen, 8T60), Yes. If the amount is 1
Please check if the amount cannot be paid in units of 1,000 yen, such as 15,200 yen. If the amount is incorrect, the CRT display 7 will say ``Please insert in units of 1,000 yen.''
If the unit is not in units of 10,000 yen, the CFLT display section 7 will display "Please select in units of 10,000 yen."
This operation guide is displayed (ST61). When the main control unit 201 determines that the customer has pressed the cancel button (ST62) in accordance with each of the above instructions, the user removes the card or passbook and inserts the amount using the keyboard 6 (8T56). The above operation is performed. On the other hand, if the total amount is correct or is in units of 10,000 yen, the main control unit 201 causes the CRT display unit 7 to display an operation guide saying ``Please check the payment amount'' (ST70). When the next operation is not performed for a period of time or more, a collection operation to be described later is performed, and when a cancel button is pressed (ST71), a take-out [7 operation] is performed. When the customer presses the confirmation button or borrows from a credit account, the main control unit 20
1 communicates with host computer 223 (8T72)
0 In this way, in the case of a credit account card, the amount of one payment is a fixed amount, for example, 50,000 yen, which is registered in advance in the transaction information file 224 in the central processing unit 221. , the confirmation step has been skipped to simplify operations for users. That is, in the above communication, as shown in FIG. 15 (1p), the main control section 201 first displays the message "Currently communicating with the computer" on the CRT display section 7 (ST2).
30), Send transaction data to the host computer 223 (8T231) o Also, at this time, the main control unit 20
1 outputs a signal to the print controller 203 to print pre-print information of the transaction, that is, the contents of the magnetic stripe, the amount, and the details of the transaction, on the journal and the slip. Then, the print controller 203 reads out a character pattern corresponding to the signal from the memory 204 and outputs the display pattern to the drivers 206 and 207. For this,
The driver 206 is the printer 1 in the passbook reading/printing device 23.
35, the above data is printed on the journal paper 139, and the driver 207 causes the slip issuing device 25 to print the above data on the slip. (8T232). Thereafter, transaction information and a message are transmitted from the host computer 223, and the main control unit 201 receives them (ST233). Then, the main control unit 201 decodes the message, that is, the transaction is completed up to the final message "40", the transaction is completed up to the intermediate message "41", and the transaction is not completed "42" (
ST234). The main control unit 201 also determines whether the message includes print information for the slip.5T235LIf the print information is included, the print controller 203
Outputs the print information to. If this is not the case, the print controller 203 prints the print information on the slip using the driver 207 (ST236). Then,
The main control unit 201 determines whether the print information for the passbook is included in the message (5T239), and if the print information is included, outputs the print information to the print controller 203. Thereby, the print controller 203 prints the print information on the passbook using the driver 20G (8T240). Next, the main control unit 201 determines whether the inserted page of the passbook is usable enough (1T241), and if it is usable enough, it updates the magnetic stripe data (ST24).
2). Furthermore, by knowing whether the main control unit 201 has printed up to the last printing line, it is possible to judge whether a turn page is necessary (5T243), and if a turn page is necessary, it is possible to judge whether the passbook can be used sufficiently (5T244), Only when it cannot be used, the turn page operation described later is performed (8T
245). In other words, when printing up to the last line of the page while printing a passbook, and there is still print data left, the main side (2) section 201:
After driving the magnetic head 147 to rewrite the page number of the magnetic stripe to the next page, the CRT display section 7 should display the operation guide ``Please insert the next page of the bankbook.'' 8T250
), the passbook is ejected from the passbook insertion slot 11. Thereafter, when no operation is performed after a predetermined period of time, a passbook collection operation is performed. When the customer reinserts the passbook on the next page according to the above instructions (ST252゜253), the main control unit 2
01 Check whether it is the same passbook (5T253), and if it is determined that it is not the same passbook (ST254), collect the envelope (ST267) and release the slip (8T268) at the time of a deposit transaction (8T266), and when it is not a deposit transaction. , release slip (
8T268) is performed. When releasing this slip, if the slip has already been printed, "6 Cancellation" is printed on the next line.This makes it clear to customers and staff that the slip is invalid, and avoids unnecessary trouble. The main control unit 201 determines that they are the same passbook.
T254), when it is determined that a passbook has been inserted with a page mark having the same page number as the page number of the magnetic stripe (ST255), the turn page ends. However, the main control unit 201 determines that the set page has not been inserted, and displays "re-insert passbook" on the CRT display unit 7 until this determination is made three times in a row, and the process starts from step 251. . However, when the correct page is not inserted three times in a row, the main control unit 201 checks whether or not it is a deposit.8T25B) If it is a deposit, it displays the message "Envelope will be ejected." Based on this operational guidance, if the customer takes out the envelope (ST260) or if it is determined that the transaction is other than a deposit, the main control unit 201 causes the slip to be ejected from the slip outlet 10. As a result, when the customer adds an invoice (ST261), the main control unit 201 causes the CRT display unit 7 to display an operation guide saying ``Passbook cannot be accepted and will be ejected'' (ST262). If no operation is performed after a predetermined period of time when the envelope ejection or passbook ejection is displayed, a passbook collection operation is performed. When the customer takes out the passbook according to the above operation guidance (8T263), the main control unit 201 determines that the turn page has not been completed (8T264). As mentioned above, when the main control unit 201 determines that the turn page has ended (8T246), when it determines that the turn page is not necessary (8T243), or when the request for a passbook request, checkbook request, or statement request is determined. Time (ST
238), the main control unit 201 assumes that the transmission and reception have ended normally. As a result, the main control unit 201 determines that the transaction has been accepted (5T73) and outputs a withdrawal signal to the withdrawal mechanism 22. Then, the withdrawal mechanism 22 operates the first and second withdrawal boxes 53.5.
The banknotes P taken out from 4 are stacked in a temporary stacking section 91. That is, 1st. The banknotes P... taken out from the second cash withdrawal box 53,54 via the takeout mechanism 55,55 are detected by banknote detectors 58,59 arranged in the respective dedicated conveyance paths 57a, 57b. This detection signal causes a counter (not shown) in the main control unit 201 to count up, and then the banknote is discriminated by a banknote detector 6° disposed on the common conveyance path 57c, and further conveyed to the second banknote discharge unit 70. from there to the second unit device 52 side. Banknotes P sequentially carried out to the second unit device 52 side
... are taken from the bill receiving section 75 into the take-in conveyance path 77 and conveyed, and when the tip of the bill P is detected by the bill detector 79, if it is a genuine bill P without stacking, it is the first bill P. The sorting gate 78 falls to the left and is fed into the genuine banknote transport path 80. Then, it is conveyed onto the temporary accumulation part 91 via the impeller 90.90, and is separated from the impeller 90.90 by coming into contact with the end face of the separation stopper 92.92, falls into a downward trap, and travels in the opposite direction. Since the banknotes P are nested with the conveyor belts 93 and 93 which are used for both dispensing and collection, the banknotes P are stacked in an orderly manner with their ends aligned. In this way, all of the banknotes P... in which the specified amount of money has been taken out from the cash withdrawal box 43, 44 and accumulated in the temporary stacking section 91 are genuine banknotes with no overlaps, and the main control unit 201 is checking the counter's count. If the result matches the set amount, the conveyance of the conveyor belt of the dispensing conveyance system is temporarily stopped. At this time, the rotation of the impeller 90 also stops due to the stoppage of the conveyor belt of the dispensing conveyance path system. At the same time as all the banknotes to be paid are accumulated in the temporary accumulation section 91, the main control section 201 causes the CRT display section 7 to display an operation guide saying "Payment is possible, please take the slip" (ST76). The customer takes out the slip according to the instructions (ST76). Depending on this withdrawal, the main control unit 201 determines whether the transaction is a card transaction or not.8T
77), in the case of card transactions, [[
``Please take your card'' is displayed (ST77') o The customer then takes out the card according to the instructions (8T78) n At this time, if the card is not taken out for a predetermined period of time or more, the collection operation described later will be performed. . In addition, in the case of transactions using a passbook, the main control unit 201 determines whether or not the passbook can be used sufficiently, and if the passbook cannot be used sufficiently, displays an operation guide "Please take the passbook" on the CRT display unit 7 (sTsl), and If the passbook can be used, the CI (T display section 7 will display an operation guide that says ``The passbook is fully usable. Please take out the passbook.'' (ST82)) Then, the customer will follow the instructions and take out the passbook (ST83)0
At this time, if the passbook is not taken out for a predetermined period of time or more, a collection operation to be described later is performed. Then, in response to the withdrawal of the card or passbook, the main control unit 201 causes the CRT display unit 7 to display the operation guide “Please take cash” (ST79), and also sends a cash ejection signal to the dispensing mechanism 22. Output. Then, the dispensing mechanism 22Fi separation stopper 92.92 rotates and presses the banknotes P... accumulated in the temporary stacking section 91 against the conveyance pel 1-93. .93 travels in the dispensing direction and temporarily accumulates part 9
The banknotes P... accumulated in 1 are taken out all at once and conveyed to the banknote takeout [] 11 side.
When the front end of the banknote detector 105 is detected, the shutter 104 is opened by the solenoid 103, and when the rear end is detected by the banknote detector 102, the conveyance operation is stopped.
93.93 and the pinch roller 10 when the leading end of the banknote P... is protruding into the banknote outlet 11 and the rear end side is the feeding/feeding bell)
A payout is made to the customer while being held in place by 0 (ST84). The main control unit 201 processes the cumulative amount of transactions taken (ST85). Then, when the customer withdraws cash (8T86), the main control unit 201 completes the transaction and waits for the next customer. . At this time, if the cash is not taken out even after a predetermined period of time has elapsed, the main control unit 201 collects the cash (ST87
). If the card or passbook is not removed after a predetermined period of time has elapsed after ejecting one card or passbook as described above, in other words, if the customer forgets to take out the card or passbook and goes home, the main control unit 20] is a card reading device 21 or a passbook reading/printing device 23, a print controller 2
03, a collection signal is output to the dispensing mechanism 22. As a result, the card reading device 21 or passbook reading/printing bag @23 takes the card or passbook into the machine and collects it in the collection warehouse.
~, the print controller 203 is the driver 206.2
07 is used to print "cancellation" on each of the bankbook, slip, and journal, and the dispensing mechanism 22 stores the banknotes P... accumulated in the temporary stacking section 91 into the banknote rejection warehouse 110. In this way, all the various media are collected and released, making it possible to execute the next transaction. However, even though the transaction information in the transaction information file 224 of the central processing unit 221 has already been updated, cash has not actually been transferred to the customer. For this reason, the main control unit 20
1 h Sends a message canceling the previous transaction to the host computer 223. As a result, the host computer 223 stores the transaction information file 224 for the customer.
Return the transaction information within to the state before the above transaction. Further, if the customer does not withdraw the cash even after a predetermined period of time has elapsed since the cash was discharged to the banknote withdrawal port 11, the main control unit 201 outputs a collection signal to the cash dispensing machine $22. Then, the dispensing mechanism 22 collects the banknotes P in the banknote outlet 11 into the banknote collection warehouse 101. In this case, since the banknotes P are in a state where they can be removed by the customer, there is no guarantee that the entire amount released will be recovered even if the banknotes are collected. Therefore, the main control unit 20
The 1-digit cancellation message is not sent to the host computer 223, and the process waits for the next customer. The above-mentioned bankbook, card, and cash collection operations are performed through steps 187 to 203 shown in the flowchart of FIG. 15 (fn). When checking the transaction letter in the message obtained by the above transmission/reception (ST73), if the transaction is not successful, the main control unit 201 displays a message on the CRT display unit 7 indicating the reason for the failure, for example, the account cannot be found. Provides information that the card has been stolen and that the request cannot be approved, and displays a display indicating that the cancellation button should be pressed (ST204) If the cancellation button is not pressed even after a predetermined period of time has elapsed after o, the card or passbook is recovered. An action is taken. Then, when the customer presses the cancel button according to the operating instructions (ST20
5) Main control unit 201 CF (displays the operation guidance "Cancel message, please remove slip" on T display section 7 (ST206) and ejects the slip from slip outlet 10. The operation guide is displayed unconditionally for a certain period of time.This is because even if the customer pulls out the slip without reading the display on the RT display section 7, he or she can still read it within the specified time. Also, even if you forget to take out the slip, you can proceed to the next nuteg.After performing the upper control operation for a certain period of time, the main control unit 2
01 Check the passbook collection flag and card collection flag in the message, and collect or return the card or passbook according to the instructions of the flags. The above operations are performed in steps 213 to 222 shown in FIG. 15(0).
It is shown in the figure below. By the way, when you insert the key for Deposit Disposal and Envelope Deposit when selecting the item, the main IIJII 1111 Department 201 checks to see if the card has been inserted (S'll'88).
If the card is inserted, check the status of the account number using the status signal in the message (ST89)
. If the status signal is a credit card account and deposit is not permitted II ST
9]), if the bank is not recognized, [the bank is not recognized
"No, please press the cancel button" is displayed (8T93). After these instructions, if no operation is performed for a predetermined period of time or more, a card return operation is performed. However, when the customer presses the cancel button according to the above guidance (Sr92), the main i'l1lJ control section 201
performs a card ejection operation. If a bankbook or bankbook is inserted into the account where deposits can be made, the main control unit 201 displays “C” on the display unit 201.
Display the operation guide "Please insert the amount" (ijT94) ○After that, if no operation is performed for a certain period of +9i, the card or passbook will be collected. Then, when the customer inputs the deposit amount - using the keyboard 6 according to the operation type (Sr95), the main control unit 201
is the operation business B3 that says, “Please confirm the deposit amount.”
is displayed on the C1%'r display section 7. Thereafter, when no operation is performed after a predetermined period of time has elapsed, the card or passbook is returned. However, if the customer presses the cancel button according to the above guidance, the main flill
When ff' 1 copy 20 copies top 01 or the passbook is ejected and the confirmation button is pressed, the main control unit 201 outputs the input amount along with the account number and machine number to the printer controller 203 and prints it on the slip. Seshime (Sr.
98), and causes the slip to be released from the slip issuing port 10 (
Sr19). By releasing this slip, the main side (2) part 2
01 FiCRT display section 7 displays the operation guide ``Take out the envelope, put the slip and cash (1 check) in the envelope, seal it, and then insert the envelope.'' (ST10
0) and outputs a lock release signal to the envelope processing device 24. Then, the envelope processing device 24 activates the solenoid 159.
By energizing the connecting lever 161, the connecting lever 161 moves downward, and the lock arm 155 rotates in the direction of arrow d using the protrusion 163a as a fulcrum. As a result, lock arm 15
5 no longer engages with the lock pawl 158a, and the envelope ejection lock is released. After the above-mentioned display guidance, if no operation is performed after a predetermined period of time has elapsed, the card or passbook is returned.However, the customer pulls the handle 8 according to the guidance. Then, the envelope removal plate 158
As a result, one envelope is ejected from the opening 154. Next, the customer encloses a slip, a check, or some cash in this envelope, and inserts it into the envelope insertion slot 9 (STIOI).
Then, the detection signal from the envelope detector 170 causes the main control unit 2 to
By operating the 01 solenoid 159, the connecting lever 161 moves upward and returns to its original position. As the connecting lever 161 moves, the lock arm 155
By rotating in the direction of arrow C, the lock arm 15
5 and locking pawl 158a engage with each other. As a result, taking out the envelope by the non-dol 8 is prohibited. Then, when the side portion is detected by the envelope detector 171, the motor 176 is stopped. By the way, when the envelope is inserted, when a detection signal is output from the thickness detector 200, the main controller 201 determines that the envelope has a specified thickness or more.8T101'), C'
On the RT display section 7, display the operation guide ``The envelope is too thick to process.Press Cancel and start over from the beginning'' (ST102). After that, if the Cancel button is not pressed even after a predetermined period of time has elapsed, The card or passbook is collected, and if the cancel button is pressed within a predetermined time, the card or passbook is returned.0 Then, when the envelope is normally taken into the envelope processing device 24 (8T101), the main control The unit 201 communicates with the host computer 223 at t6 (ST104). This communication operation is almost the same as that for the payment transaction described above, and includes envelope ejection processing (8T258 to 5T260) and envelope collection processing (8T266.267). ) has been added. Therefore, the main control unit 201 causes the journal, slip, and bankbook to be printed in accordance with the message received from the host computer 223. In this case, unlike the payment transaction described above, the transaction data is not printed on the passbook.
Only the unrecorded print data is printed. Since this is a deposit in an envelope, it is not possible to check whether the contents of the envelope match the amount entered by the customer.
The transaction information in the bankbook is not updated and the transaction is not printed in the passbook. When the communication is completed, the main control unit 201 checks whether the transaction has been accepted or not based on the transaction status signal in the message (5T105). If not, it performs the same transaction processing as a payment transaction. Follow the instructions whether the envelope collection flag in the message is 1" or os to determine whether to return or collect the envelope (8'r209~5
T212) o If the transaction is accepted, the main control unit 201 outputs a print and storage signal to the envelope processing value #24. As a result, the envelope processing device 24 prints the stamp in the printing unit 168 and then transfers the envelope to the envelope storage hopper 1.
Next, the 1 main control unit 201 causes the CRT display unit 7 to display an operation guide saying ``Deposit has been accepted, please take the slip'' (ST141). Following this guide, the customer should take out the slip 8T14
2) In response to this withdrawal, the main control unit 201 determines whether the transaction is based on the card (8T143). In the case of a transaction using a card, please select "Please insert your card" on the CB'l' display section 7.
An operation guide is displayed (ST144), and the customer takes out the card according to the guide (8T145). At this time, if the card is not removed for a predetermined period of time or more, a collection operation is performed. In addition, in the case of a transaction using a passbook, the main control unit 201 determines whether the passbook can be used sufficiently, and if the passbook cannot be used sufficiently, displays an operation guide saying "Please take the passbook" on the CR1 display section 7 (ST147), If it can be used, display the operation guide on the CR,T display section 7 that says ``The passbook is fully usable, please take the passbook.'' (STt48
) The customer then takes out the passbook according to the instructions (ST 149) o At this time, if the passbook is not taken out after a predetermined period of time, a collection operation is performed. During the above-mentioned slip retrieval guidance, the main control unit 201 does not check the slip sampling, but after waiting for a predetermined period of time, displays a message indicating that the card or passbook should be removed, and then ejects the card or passbook. Furthermore, when collecting the card or passbook, unlike a payment transaction, a cancellation message is not sent to the host computer 223. In other words, since the deposit transaction has already been completed and the deposit + money has been deposited, the host computer 223 2
This is because 23 and the automatic transaction device are compatible. Next, when selecting the item, select the key 6 for the transfer transaction.
When the card is inserted, the main control unit 201 checks whether the card is inserted or not.8T11? ), in the case of a card, it is checked whether it is a credit account (8T118) o Furthermore, the main control unit 2
If 01 is not a credit account, it is used as the first account number, that is, the transfer destination account, and the account status is checked for non-payment etc. by the status signal in the message (ST11
9). If the main control unit 201 determines that the transfer using the account is not permitted based on the status signal (ST) 20
), the CRT display section 7 displays the operation guidance "We do not authorize that account, please press the cancellation button"(8'l"121). Even after a predetermined period of time has elapsed after these guidance, the cancellation is not possible. When the button is not pressed, the card collection operation is performed, and when the cancel button is pressed within the time (8
'l'122) Execute % extraction operation. In addition, the main control unit 2
01, the main control unit 201 determines that the account is permitted for transfer transfer (8T120), the main control unit 201 displays Cf(, T display unit 7, “Please select the account to transfer from the accounts below.”)
Among the accounts obtained through the account inquiry mentioned above, instructions to use the transfer destination account selection key for accounts other than the 10th account number and credit account, and the item "Some others" are displayed (8T124) o After that, If no operation is performed for a predetermined period of time or longer, a card collection operation is performed.0 Then, when the customer follows the guidance and selects the second account number, that is, the transfer destination account (, 8T125), the main control unit 201 changes the account status. Please check 5T128)%
If an account for which deposits are prohibited is selected, the transaction will be suspended (
ST129, STI 30). Also, if the main control unit 201 determines that the transaction is a passbook transaction (ST117), if there is only one account number obtained by account inquiry (8T123)%'), or if the above second account number is selected. When the foam customer selects "Others" (8T127), the main control unit 201 controls the CRT display unit 7.
Displays the operation guidance "Please enter the transfer destination account manually" (ST131) o In response to this guidance, the customer enters the account number using the keyboard 6 (ST1
32), that account number becomes the transfer destination, that is, the 20th bank account number. After this, or if the selected account is normal, the main side (financial) department 201 causes the CRT display section 7 to display an operation guide saying "Please insert the amount" (ST134).
o When the customer inserts the amount according to this guidance (8'rl a
5), the main control unit 201 causes the C, RT display unit 7 to display the guidance “Please check and confirm” (ST1
37). However, if the customer presses the cancel button according to the above guidance, the main control unit 201 will eject the card or passbook, and if the customer presses the confirmation button, the main control unit 201 will communicate with the host computer 223 (ST
138) o In addition, at the time of the above operation guidance (ST131, 134
．． 136) When no operation is performed after a predetermined period of time, a card or passbook collection operation is performed. After the father's return operation, the operation is the same as in the case of the payment transaction described above except for dispensing banknotes. Furthermore, if the main control unit 201 determines that the first selected account number is a credit account (ST118), it
, that is, the transfer destination account, and check whether there are many other accounts (8T150). As a result of this check, if the name does not exist, the main control unit 201 causes the CRT display unit 7 to display an operation guide that says ``Last name is missing due to request progress'' (ST154), and when the cancel button is pressed, the retrieval operation is performed. In addition, if there are many accounts, the main control unit 201 displays on the CRT display unit 7 an operation guide that says ``Please select one transfer destination account from the accounts below'' and an instruction to use the transfer destination account selection key. 8T151). After that, if the card is not operated even after a predetermined period of time has elapsed, a card return operation is performed.0 When the customer selects an account number, that is, a transfer account according to the above guidance (ST152), the main control unit 201 checks the account status. 5T153), if an account that prohibits withdrawals is selected, the transaction will be interrupted (5T12)
1゜1sT122), If the transaction is approved, the CRT display section 7 displays an operation guide saying "Please insert the amount" (ST)34) From then on, the operation is the same as the above-mentioned transfer transfer operation. Therefore, if the 10th account number is a credit account,
A transfer is made from the 20th account to the 10th account, and if the 10th account number is not a credit account, a transfer is made from the 10th account to the 20th account. When a customer transfers money between their own accounts using these methods, they do not have to enter the numerical value of the account number directly from the keyboard 6 (they only have to select one of the account numbers displayed on the CRT display section 7). , it becomes very simple.Next, when the key 6 for balance inquiry transaction or bankbook entry transaction is input when selecting the item, the main control unit 201 communicates with the host computer 223.As a result of this communication, the bankbook is displayed. , a slip, and a journal.In the case of a balance inquiry transaction, main control unit 201tJ:C before releasing the slip.
The balance is displayed on the RT display section 7, and the customer is allowed to select whether or not to continue the next transaction. If the customer chooses to continue, the main control unit 201 releases the slip and then returns to the transaction type selection step (8T45) described above to return the card and immediately validate the next transaction. However, balance inquiry transactions at this time will be invalid. Furthermore, when the customer does not intend to continue with the passbook update transaction or balance inquiry transaction, the main control unit 201 releases the slip, returns the passbook or card, and ends the transaction. The above operation is 8 shown in the 70-chart of FIG. 15(k),
Processing from T156 to S'r171 is performed. Next, when selecting the item, enter the key 6 for the passbook request transaction.
When the main control unit 201 turns on the host computer 2
23 (8T172), the host computer 223 stores the passbook request in the storage area in the transaction information file 224 corresponding to the account. Then, the main control unit 201 determines that the transaction has been accepted, 5T1.
73), check the status signal in the message 5T1
74) When determining that the statement request is OK, the CRT display section 7 displays an operation guide saying "Statement request OK, please take out the slip" (ST177) o The customer takes out the slip in response to this guidance. (ST178), the main control unit 201 causes the card to be removed from the bankbook (8T179 to xs2'). In addition, checkbook requests and statement requests also operate in the same way as the above-mentioned passbook request. The above-mentioned passbook request transaction is a transaction for requesting a financial institution to issue a new passbook when the number of pages remaining in the passbook held by the customer is running low. This request is temporarily stored in the host computer 223,
New bankbooks are now being mailed by financial institutions to post-vaginal users. In this case, the host computer 223 checks the current usage status of the bankbook and confirms that the last page is being printed. Only at times will it be possible to accept passbook requests. By handling such transactions using automated teller machines, it is possible to significantly reduce counter work associated with issuing passbooks. In fact, it is possible to request a single check transaction or a statement request transaction in the same way as above. This is similar to a bankbook request, once the request is stored in a predetermined area in the transaction information file 224 by the host computer 223, and based on this storage, the clerk will then mail the requested transaction statement or checkbook. . Next, regarding the passbook reading section 148 explained in FIG.
This will be explained in detail using FIGS. 8 to 20. The mechanism and circuit are shared between the reading section for final printing and page mark reading, and FIG. 18 shows the concept of the reading section 14B, and FIG. 19 shows a simple block diagram of the circuit configuration. The reading unit 148 scans the printed surface of the passbook 305 with the lamp 3.
00, and the reflected light passes through the lens 301 at approximately 1
15 and is received by the CCD image sensor 302. The COD image sender 302 is composed of a 2048-bit line array. The scan period of the CCU image sensor is approximately 1 m sw, and the bankbook 305 is moved by the pulse motor 132 to accurately determine the page mark position 303 and the position of the printed mark on the reading unit 148.
In addition, one pulse of the pulse motor 132 corresponds to a conveyance amount of 1/120 inch of the single eye 305, and one conveyance amount of one eye 305 is 190 mm.
/see is set. As a result, the resolution is 30
The printed surface of No. 5 has a length of 0.19 mm% and a width of 0.07 ryxn. Discrimination of printed characters 3040 and own mark 303 C
This is done by counting the number of black bits per scan obtained from the CD image sensor 302. Usually, the size of the printed character 304 is 2.5 mm in height and 2 mm in width.
mm, thickness is about 0.2 to 0.3 mm, page mark 3
Since the thickness □ of 03 is 0.4 to 0.8 mm, from the above resolution, the page mark 303 can also be seen from the printed characters 304.
Sufficient "black" bit information can be obtained from
/D conversion unit AD1 (308a). It is input to AD2 (308b). AD converter AI) 1
(308a) and AD2 (308b) quantize the output of the amplifier circuit 307 at different levels. That is, the ADI (308a) quantizes at a low level to determine that even relatively thin characters are "black", and the AD2 (308b) quantizes at a high level to determine "white". ADI (308a), AD2 (308b) Quantized 6 black "or white" gain digital signal 1d counter 1 (CTRI) 309a, quantized by Ic. (CTR2) 309b and counted by CPU 3.1
Reads to 0. CTR1 (309a) and CTR2 (309b) are grammatical pull counters, which can be set arbitrarily by the CPU 310. In other words, when used to detect a printed podium, the number of black bits in one scan is counted, and the CPU
310 reads the number and determines whether or not there is a printed character on that line when scanning for one line is completed.
Therefore, if the printed characters on the passbook are faded or smudged, or if there is a trace of the printed characters on the previous page, it becomes difficult to determine whether or not it is a printed podium. However, in this embodiment, the condition is that there are more than a predetermined number of scans in which the count value of CT l(, 1 (309a)) is equal to or more than a predetermined number of pits as a result of scanning one line. Therefore, the printed podium is detected accurately without being affected by dirt or blurring. Fig. 20 shows the black bits for each scan using the printed character °2" as an example. In addition, in the case of detecting the page mark 303, since the page mark 303 is printed in advance, the density is above a certain level.Therefore, the detection of this page mark 303 requires a quantization level Only the high count value of CT R,2 (309b) is used.In other words, CT) L2 (309b) is calculated as follows.
The CPU 310 outputs ``1'' or 0'' from KCTR2 (309b) every scan.
If it is 1", it is determined that there is a page mark.The setting of the number of consecutive "black" bits is programmable, and by changing this number, it is determined that there is a page mark. Also, since it uses a COD image sensor, it can detect differences in passbook dimensions, page marks (vertical bars, horizontal pars, long/short, etc.), and print line pitch. The present invention can be easily applied to all types of passbooks that currently exist, such as by changing the program. [Effects of the Invention] As detailed above, according to the present invention, it is possible to detect page marks on passbooks. Since the quantization level is changed depending on the detection of printed characters, accurate reading can be performed without being affected by dirt, scratches, or the imprint of back printing.

[Brief explanation of the drawing]

1 to 20 show one embodiment of the present invention, in which FIG. 1 is an external perspective view, FIG. 2 is a schematic diagram of the internal structure, and FIG. 3 is a section taken along line AA' in FIG. 2. FIG. 4 is a sectional view taken along line B-B' in FIG. 2, FIG. 5 is a sectional view schematically showing the card reading device, FIG. 8 is a sectional view of the envelope processing device, FIG. 9 is a partially cutaway perspective view of the side issuing device, and FIG. 10 is a sectional view schematically showing the printing section. , 11th
The figure is a sectional view of the shutter receiving mechanism, Figure 12 is a block diagram schematically showing the overall configuration, Figure 13 is a schematic block diagram of the speech synthesizer, and Figure 14 is an electric circuit diagram showing the configuration of the current detection circuit. , FIG. 15 is a 70-tayat for explaining the operation, FIGS. 16 and 17 are diagrams showing display examples on the CRT display section, FIG. 18 is a schematic configuration diagram of the passbook reading section, and FIG. 19 is a passbook A schematic block diagram of the reading section, Figure @20, is a diagram for explaining a reading example. 12... Passbook insertion slot, 23 - Passbook reading and printing device, 1
48...reading unit, 302...COD image sensor,
305... Passbook, 303... Page mark, 309a. 309 b, counter, 310 CPU. Agent Patent attorney Noriyuki Chika (and 1 other person) Drawing section ■:'' (No change in content) JP-A-Sho GO-86665 (23) Tube 2, Figure 3, Figure 4, Figure 9, Figure 10, Figure 1 Figure 11 Figure 15 (b) Figure 15 (g to Figure 15) Figure 15 (/'0 Figure 15 C1) Figure 15 Cm) Figure 15 (n+ Figure 15 (0) Figure 15 (9) Figure 15 (and) Figure 16 Figure 17 Procedural amendment (method) Showa t3.2.%2 ”' Commissioner of the Japan Patent Office 1, Indication of the case Patent application No. 1988-194038 2, Invention Name passbook detection method 3 Relationship with the case of the person making the amendment Patent applicant (3″07) Tokyo Shibaura Electric Co., Ltd. 4 Agent Address: 1-1-6 Uchisaiwai-cho, Chiyoda-ku, Tokyo 100 January 31, 1980 (Shipped) (Japanese) 6 Subject of amendment fl) Mn Yoi (2) Specification (3) Drawing 7 Contents of amendment (1) As shown in the attached sheet

Claims (2)

[Claims] (1) A passbook insertion slot that accepts the user's passbook, a conveyance means that transports the passbook inserted from this passbook insertion slot, page information printed on the open page of the passbook, and printed information a quantization circuit connected to the detector for quantizing the output signal of the detector; and means for applying a plurality of different reference voltages to the doji conversion circuit; Passbook detection method 0 characterized by detecting the information and printed information using different reference voltages. (2) The bankbook printing method according to claim 1, wherein the reference voltage of the reference electron is high when detecting page information, and low when detecting print information.