JPH0361223B2 - - Google Patents

Description

[Detailed description of the invention]

[Technical Field of the Invention] The present invention relates to a display device that displays the contents of a display area in which the amount and number of appropriately processed objects are stored. [Technical background of the invention and its problems] Examples of this type of display device include those applied to sorting and stacking devices that sort and stack multiple types of banknotes by denomination, fitness, front and back, etc. I can do it. By the way, in such a conventional display device, when switching and displaying the amount and number of banknotes stored in the display area, the number of digits of the amount stored in the display area is If the maximum number of digits that can be displayed is exceeded, the operator must perform an operation such as resetting the display selection to the number of sheets, which poses a problem of complicating the display operation. [Object of the Invention] The present invention has been made in view of the above circumstances, and its purpose is to prevent the amount of money stored in the display area from exceeding the maximum number of digits that can be displayed on the display. It is an object of the present invention to provide a display device that can perform appropriate display processing without intervening operator operations even when the display device is in use, and that can contribute to simplifying display operations. [Summary of the Invention] In order to achieve the above object, the present invention provides a display area that stores for display the amount and number of processed objects, and a display section that selectively displays the stored contents of this display area. and, if the number of digits of the amount stored in the display area exceeds the maximum number of digits that can be displayed on the display section, the number stored in the display area is displayed on the display section. A display device is constituted by a control means for controlling the display device. [Embodiments of the Invention] A device according to an embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is an external view showing an embodiment of the device of the present invention, FIG. 2 is a schematic explanatory view showing the internal mechanism of the device, and FIG. 3 is a detailed explanatory view showing the display section and operation section of the device. FIG. 4 is a block diagram of the structure of the device. In this embodiment, an example of an apparatus for sorting and stacking banknotes as an object according to a predetermined sorting operation mode will be described as an example. As shown in FIG. 1, the external configuration of this device consists of an operating section 1 for specifying the operating mode, and a display section 2 for displaying the processed contents based on the specified operating mode, on the upper part of a frame 3. A banknote takeout unit 4 is provided on the side of the operating unit 1 and the display unit 2 for storing banknotes to be processed and sequentially taking out the banknotes one by one. and a first stacking unit 5 that stacks banknotes taken out from the banknote takeout unit 4 and processed (the details of the processing will be described later);
A second stacking section 6 and a third stacking section 7 (in which banknotes to be rejected are stacked) are arranged in order from above in front of the frame 3. Note that the banknotes stacked in each of the stacking sections 5, 6, and 7 can be taken out from the front of the device. In addition, a printer 8, for example, is connected as a printing unit that prints the results of the stacking process, such as the number of banknotes sorted and stacked by this device and the abnormal state code of the device. The internal mechanism of this device having such an external configuration is shown in FIG. That is, the banknote retrieval section 4 is pressed by the backup board 4A.
The banknotes sequentially taken out from the first stacking section 5,
A conveyance section 10 for conveying to the second accumulation section 6 and the third accumulation section 7 is provided. Although the conveying section 10 is shown as a banknote conveyance path in the figure, it has a structure in which banknotes are conveyed while being held between them by, for example, a conveyor belt (not shown). A detection unit 11 that detects the type (denomination, fitness, front/back, etc.) and authenticity of the banknote taken out from the banknote takeout unit 4 and conveyed is placed oppositely across the banknote conveyance path. . and a first gate section 12 that switches the banknotes that have passed through the detection section 11 toward the third stacking section 7 or other stacking sections (first stacking section 5, second stacking section 6); , a second gate section 13 that switches banknotes conveyed through the first gate section 12 toward the first stacking section 5 or the second stacking section 6 is located on the banknote conveyance path. It is provided. Both gate parts 12 and 13 are connected to the flapper 12 by a built-in drive part (not shown).
A, 13A is rotated to switch the conveyance direction of banknotes. Further, the banknote takeout unit 4 is provided with a stock detector _A0 for detecting whether or not banknotes are stocked. A first passage detector C1 is provided to detect passages. Further, in front of the first stacking section 5, there is a second stacking section for detecting the passage of banknotes in order to count the number of bills conveyed to the first stacking section 5.
A passage detector C2 is provided, and an object presence/absence detection means for detecting whether or not banknotes are accumulated in the first accumulation section 5, for example, a first accumulation detector A1 is provided. Further, in front of the second stacking section 6, a third passage detector C3 is provided to detect the passage of banknotes in order to count the number of bills conveyed to the second stacking section 6. and an object presence/absence detecting means for detecting whether or not banknotes are accumulated in the second stacking section 6, for example, a second
An integrated detector A2 is provided. Furthermore, in front of the third accumulation section 7, there is a third accumulation section 7.
A fourth passage detector C4 is provided to detect the passage of banknotes in order to count the number of banknotes conveyed to the third stacking section 7. Reject detector
_A3 is provided. Note that the banknote retrieval unit 4 is configured to store banknotes by, for example, bringing one side of the short side of the banknotes into contact with a guide (not shown). Therefore, even if several types of banknotes of different sizes are stored, their edges are positioned and aligned, so the banknotes taken out one after another are
The light reaches the detection unit 11 one after another at approximately constant timing. As a result, the position of the data to be read from the banknote when determining the denomination, fitness, etc. in the detection unit 11 is almost constant (or the error in the reading position is reduced), so it is necessary to store it in the device in advance. It is possible to reduce the number of reference data and to improve the efficiency of various discrimination processes. Next, details of the operation section 1 and the display section will be explained based on FIG. 3. Various operating members are arranged in the operating section to give instructions for sorting and stacking banknotes, such as a counting button 15 and front and back buttons 1 as operation mode specifying means used to specify an operation mode, which will be described later.
6. A fit note button 17 and a fit/loss button 18 are arranged horizontally, and below these are marked the meaning of both the type (e.g. denomination) and quantity (e.g. number of coins) of the object (e.g. banknote). For example, a numeric keypad 21 is arranged as type/quantity specifying means, and a start/stop button 2 for instructing the start and stop of the operation of the device (this is an example of a start instructing means for instructing the start of operation of the device) 2
2. Restart button (an example of a restart instruction means for instructing the start of operation of the device) 23, verification/(print) button (an example of a verification operation means) 24, reset button 25, and transaction number and account Blank button 19, sharp button 2 used when entering the seat number
0 is placed. Especially among the above operating members,
The operation mode specifying means 15, 16, 17, and 18, the numeric keypad 21, the start/stop button 22, and the restart button 23 are arranged in one direction from the top in accordance with the operating procedure of this device (details will be described later). This improves operability. Note that the numeric keypad 21 has a type specifying means for specifying the type (e.g., denomination) of the objects (e.g., banknotes) to be accumulated, and a type specifying means for specifying the type (e.g., denomination) of the objects (e.g., banknotes) to be accumulated.
This is an example of an accumulation quantity specifying means for specifying the quantity (for example, the number of coins). When setting the accumulation number, the number of coins corresponding to the pressed key is input, and when specifying the denomination, the number keys 1, 2, 3, etc. By pressing the key for the denomination (10,000, 5,000, 1,000, 500) listed in 4, the desired denomination is specified (the specific operation will be explained in detail later). ). In this way, the numeric keypad 21 specifies the accumulated denomination,
Since it is used for specifying the number of sheets to be stacked and for inputting transaction numbers and account numbers using the blank button 19 and sharp button 20, the operating section 1 can be made smaller. The display section 2 consists of five stages of display spaces 2A to 2E, as shown in FIG.
The display spaces 2A to 2D up to the tiers display the quantity (number or amount) of banknotes sorted and accumulated according to the operation mode described later, and the display space 2E in the 5th tier displays the numbers 1 to 4. Display space up to 2
The total quantity (number of sheets or price) of items displayed in A to 2D is displayed. When the total is not displayed, a status code indicating the status of the device is displayed in the three digits on the left side of the display space 2E, and the input contents from the numeric keypad 21 are sequentially shifted from the right digits and displayed to the left. It's summery. The display contents of each of the display spaces 2A to 2D from the first stage to the fourth stage are changed according to the operation mode described later. That is, the display space 2A in the first row displays the quantity of regular notes or 10,000 yen notes, the display space 2B in the second row displays the quantity of unfit notes or 5,000 yen notes, and the display space 2B in the second row displays the quantity of unfit notes or 5,000 yen notes. The display space 2C displays the quantity of front tickets or 1,000 yen bills, and the fourth display space 2D displays the quantity of reverse tickets or 500 yen bills.In this way, the display spaces 2A, 2B,
2C, 2D, and 2E have multiple meanings assigned to their display contents. In addition, each display space 2A~2
In order for the operator to accurately recognize what content is displayed in D, display spaces 2A~
Content display lamps LP4 to LP11 are provided to the left of the characters indicating the 2D display contents, and the corresponding lamps are displayed by lighting. Moreover, the pairs of content display lamps (LP4, LP5), (LP6,
LP7), (LP8, LP9), (LP10, LP11)
can be displayed in different colors, one lit up in blue and the other lit up in red. Furthermore, an amount/number switching means (hereinafter also simply referred to as an amount/number switching switch) 26 is provided in the display space for switching whether to display the accumulated quantity mainly as either the amount or the number of banknotes in the display spaces 2A to 2E. It is located above the . In this way, the contents displayed in each of the display spaces 2A to 2E are switched according to the operation mode, so the display section 2 is miniaturized. Note that the numeric keypad 2 is located up to 3 digits from the left side in the third diagram of the display space 2A of the first stage (the area indicated as number division in Figure 3).
The number of sheets set in step 1 is displayed. As a result, if the number of banknotes sorted is less than the set number due to an insufficient number of banknotes stored in the banknote takeout section 4, or if the device stops during the sorting process, the operator may make an error in the set number of banknotes. It becomes possible to prevent post-processing mistakes due to recognition. In addition, in order to make the operator aware of the status of the equipment, there is a power-on indicator LP3, an operation confirmation indicator LP12, and an internal confirmation indicator lamp.
LP13, first accumulation section 5 provided in the upper stage
An upper stack full display lamp LP14 indicates that the second stack 6 provided at the lower stage is full; a lower stack full display lamp LP15 indicates that the second stack 6 provided at the lower stage is full; A redirect full indicator lamp LP16 is provided to indicate that the third stacking section 7 is full, and the main parts of the device are pattern-printed to prevent the device from stopping due to abnormal conditions such as paper jams. Abnormal position display lamps LP17A, LP17B, which light up corresponding to the abnormal position when
LP17C, LP17D, and LP17E are arranged. Note that 4 for specifying the operation mode is
The operation mode display lamps LD18A and LP18B that light up when pressed are the buttons 15 to 18.
LP18C and LP18D are provided. As shown in Fig. 4, this device includes a control means (hereinafter simply referred to as a control section) as a means for realizing various functions.
30 are provided. The control unit 30 includes the operation unit 1, the detection unit 11, the stock detector A ₀ , the first accumulation detector A1, the second accumulation detector A2, the reject detector A3, and each passage detector (first to Fourth
In addition to inputting the output signals from the passage detectors C1, C2, C3, C4), the display on the display section 2, the printing by the printer 8, and the mechanism control section 31
The operation of the banknote takeout section 4, each stacking section (first to third stacking sections 5, 6, 7), transport section 10, etc. via the output control section 32, and the display lamps LP3 to LP3 via the output control section 32. LP16, LP17A~LP
17E, LP18A to LP18D, and serves as means for realizing various functions described later. And this control section 3
0 is a program up memory 33 that stores various programs, a data memory 34 that stores various data, and a backup memory that stores data that requires backup (when the power is turned off).
Battery 35A to maintain memory contents
The controller 1 is connected to the controller 1 and reads a program from the program memory 33 according to the contents instructed by the operating section 1 to control each section of the device. Note that an alarm means such as an alarm buzzer and an alarm lamp (hereinafter also simply referred to as an alarm device) 9 is connected to the control unit 30. The above data memory 34 and backup memory 3
5 is an example of a storage means for storing various data, and its details are shown in A, B, C, D, E,
This is shown in the memory map of F and G. First, the storage areas can be roughly divided into the current area CCTR (see Figure 5A), which sequentially stores the quantity (e.g., number and amount) of objects (e.g. banknotes) accumulated in the accumulation section; a backup area BCTR (see Figure 5B) that stores the quantity of objects that have been
A display area DCTR (see Figure 5 C) that stores the quantity of accumulated objects for display, and an accumulation area ACTR (see Figure 5 D) that accumulates and stores the quantity of accumulated objects. ), the quantity specification area NCTR (Fig. 5E
), an accumulation quantity area PCTR (see FIG. 5F) that sequentially stores the quantity (number of sheets) of objects accumulated in the accumulation section, etc., in addition to the current area CCTR, and other contents operated on the operation section 1. It consists of another area OCTR (see Fig. 5G) that stores the following information. The current area CCTR is the first
It consists of a current area CACTR for the accumulation section and a current area CBCTR for the second accumulation section, and each has a number of 10,000 yen sheets CTR, 5,000 yen sheets CTR,
The smallest unit areas are formed: 1,000 yen number CTR, 500 yen number CTR, total CTR, fair number CTR, unfitted number CTR, front number CTR, back number CTR, and total number CTR. Note that storage in the minimum unit area is performed sequentially based on the output signal from the second passage detector C2. The backup area BCTR also consists of a backup area BACTR for the first accumulation section and a backup area BBCTR for the second accumulation section, each of which has a minimum unit of 10,000 yen sheets CTR to total CTR in order from the top. area has been formed. Note that this minimum unit area corresponds to the minimum unit area of the current area CCTR. The display area DCTR is the number of 10,000 yen sheets CTR, the number of 5,000 yen sheets
CTR, 1,000 yen CTR, 500 yen CTR, and total
A first display area D1CTR having CTR as the minimum unit area, and an amount of 10,000 yen CTR,
5,000 yen amount CTR, 1,000 yen amount CTR, 500 yen amount
A second display area D2CTR has the CTR and total CTR as the minimum unit area, and a third display area D2CTR has the number of correct notes CTR, the number of unfit notes CTR, the number of front notes CTR, the number of reverse notes CTR, and the total CTR as the smallest units. Display area D3CTR
It is formed from. Note that the minimum unit area of this display area DCTR usually stores the sum of the storage contents of the minimum unit area of the backup area BCTR and the storage contents of the minimum unit area of the current area CCTR (DCTR). ←CCTR+BCTR). The Acquisition Late Area ACTR is a first area having minimum unit areas of 10,000 yen CTR, 5,000 yen CTR, 1,000 yen CTR, 500 yen CTR, and total CTR.
Acquisition late area A1 CTR and amount of 10,000 yen
A second accumulation area A2 CTR that has CTR, 5,000 yen amount CTR, 1,000 yen amount CTR, 500 yen amount CTR, and total CTR as the minimum unit area
It is formed from. Note that in the smallest unit area of this accumulation late area ACTR, the contents stored in the current area CCTR when banknotes are normally taken out from the stacking sections 5 and 6 are sequentially accumulated (ACTR←ACTR+).
CCTR). The quantity specification area NCTR has the minimum unit storage area corresponding to each operation mode, and stores the number of counted sheets CTR, the number of front and back sheets CTR, and the number of genuine notes.
It consists of the CTR and the number of defective sheets CTR. The accumulated quantity area PCTR, the number of sheets taken from the take-out section
P ₀ CTR, number of sheets accumulated in the first accumulation section P1CTR, second
The number of sheets P2CTR and the number P3CTR of sheets stacked in the third stacking section are formed as the minimum unit storage area. The Anaza Area OCTR is
Verification CTR, numeric FLAG, numeric BUFF, mode
FLAG, denomination BUFF, start FLAG, mode
The minimum unit storage area is FLAG, transaction number BUFF, and manual input BUFF. Although not shown, buffer stores are provided in the current area CCTR and backup area BCTR corresponding to each minimum unit area. Here, the control unit 30 and the program memory 3
3 is configured to realize the functions described in A to A shown below. (b) The quantity of banknotes accumulated and processed in counting mode (number of bills by denomination, amount by denomination) is cumulatively added, but in the case of sorting mode, cumulative addition is not performed. (b) When the display of the amount is selected by the amount/number of bills switch, the total amount of the banknotes sorted and accumulated by the specified denomination is displayed on the display section, and when the display of the number of bills is selected, the specified amount is displayed. - The number of banknotes sorted and stacked by denomination (number of front and back banknotes or number of sheets for each fit and loss) is displayed on the display section. (c) By pressing the collation/(print) button once, the contents stored in the display area are printed on the printing section, and by pressing the collation/(print) button a second time, the contents stored in the accumulation area are printed. The printing unit prints, and after this printing, the storage contents of the storage area are cleared. (d) The number of accumulated bills specified using the numeric keypad is displayed on the display unit until the detection unit starts detecting banknotes. (e) The input from the numeric keypad before specifying the operation mode is used to specify the number of stacked sheets, and the input from the numeric keypad before the instruction to start the device operation is used to specify the denomination. (f) Even if either the amount display or the number display is selected by the amount/number switching means, the total amount of banknotes accumulated by denomination is displayed as the total amount. (g) When one denomination of banknotes to be sorted and stacked is specified, banknotes of other than the specified denomination and those to be rejected are stacked in different stacking sections. (h) When a failure occurs, the quantity stored in the backup area is transferred to the display area, and the contents stored in this display area are displayed on the display section. (li) When the start instruction means is selected, the memory contents of the current area CCTR, backup area BCTR, display area DCTR, and quantity specification area NCTR of the storage means are cleared, and the results of detection by the object presence/absence detection means are accumulated. The operation of the apparatus is started when there is no object being searched for, and when the restart instruction means is selected, the operation of the apparatus is started with the stored contents of the storage means unchanged. (v) Disabling input from the restart instruction means after specifying the denomination on the operation unit, and input from the restart instruction means after specifying the operation mode in which denomination specification is required as a continuous operation. make it unacceptable. (Ru) If the accumulation quantity is not specified using the accumulation quantity specification means when specifying the operation mode, the sorting and accumulation operation is performed using the accumulation quantity preset in the quantity specification area corresponding to the specified operation mode. control. (w) Based on the outputs from the counting means and the object presence/absence detection means, it is determined that the object has been removed from the stacking section where the accumulated quantity has not reached the quantity set by the quantity specifying means, and the alarm means is actuated. At the same time, based on the output from the object presence/absence detecting means, it is determined that the object has been returned to the accumulation section after being removed, and the alarm means is activated. (W) If the number of digits of the amount stored in the display area exceeds the maximum number of digits that can be displayed on the display section, only the number stored in the display area should be displayed on the display section. Control.

[Table] Next, the operation modes of this device will be explained with reference to Table 1. This device can be roughly divided into a counting mode (a) that counts banknotes of a mixture of multiple denominations, a front/back mode (b) that counts banknotes while dividing them into front and back, and a count mode (b) that counts banknotes of a specified denomination as good or bad. Classification of fitness mode
It is possible to select and execute (c) and a genuine note mode (d) in which a specified one denomination of banknotes is divided into regular bills on the front and regular bills on the back. In the counting mode (a), banknotes of all denominations (mixed banknotes) are counted without denomination specification (a-1), banknotes of one specified denomination are extracted, and banknotes of all denominations are counted. There are three modes: specifying one denomination to be counted (a-2) and specifying two denominations to be counted while extracting specified two denominations (a-3). There are two modes: no denomination designation (b-1), which separates banknotes (mixed notes) of denominations into front and back, and one denomination designation (b-2), which divides only one designated denomination of banknotes into front and back. have Regarding each of the above operation modes, operation modes other than the counting mode without denomination specification (a-1), which does not specify the type of object, can be considered as the specified type classification accumulation operation mode, and furthermore, the counting mode (a) and The front/back mode (b) can be considered as a counting mode whose main purpose is to count objects (banknotes), and the fit/loss mode (c) and fit note mode (d) can be used to further count objects (banknotes) after the counting mode is executed. It can be thought of as a sorting mode whose main purpose is to subdivide banknotes and classify them by type. The counting mode without denomination specification (a
-1) stacks recognizable banknotes in the stacking section 5 and second stacking section 6 shown in Table 1, and stacks those that should be rejected, such as counterfeit bills that cannot be distinguished, in the third stacking section 7. Particularly in the operation mode in which mixed bills are stacked in the first stacking section 5 and the second stacking section 6, when bills are taken out from either stacking section, the removed stack Since the banknotes automatically start stacking in the first stacking unit 5, banknotes are removed from the first stacking unit 5 while the first stacking unit 5 completes stacking and is being stacked in the second stacking unit 6. If you take out the second
After the stacking on the stacking section 6 is completed, stacking on the first stacking section is automatically started again, and as a result, bills can be stacked alternately on both stacking sections,
Sorting and accumulation can be performed efficiently without stopping the device midway. In the one denomination designated counting mode (a-2), banknotes of a designated denomination are stacked in the first stacking section 5, banknotes of other denominations are stacked in the second stacking section 6, and the denomination is not discriminated. Possible counterfeit bills and other items to be rejected are accumulated in the third accumulation section 7. In particular, banknotes of designated denominations are not stacked in both stacking sections 5 and 6,
Since banknotes other than the designated denominations and those to be rejected are separated and stacked in different stacking sections 6 and 7, banknotes whose denominations can be distinguished and those whose denominations cannot be distinguished are not mixed, and as a result, this case There is no waste in the accumulation operation, and it can contribute to increasing the efficiency of the subsequent segmentation and accumulation operation. In the two-denomination designated dynamic mode (a-3), banknotes are sorted by designated denomination into the first stacking section 5 and the second stacking section 6.
At the same time, those to be rejected are accumulated in a third accumulation section. In the front and back mode without denomination specification (b-1), the front and back tickets of a mixed ticket are
The materials to be rejected are collected in the third collection section 7 and the third collection section 7 respectively. -Denomination specified front/back mode (b-2)
The front ticket and the back ticket of the specified denomination are stored in the first stacking section 5 and the second stacking section 5.
The materials to be rejected are collected in the third collecting section 7, respectively. In the fit/loss mode (c), normal bills of the designated denomination are accumulated in the first stacking section 5, unfit bills of the specified denomination are accumulated in the second stacking section 6, and other bills to be rejected are stacked in the first stacking section 5. It is accumulated in the accumulation section 7 of No.3. In the regular bill mode (d), regular bills of the designated denomination are accumulated in the first stacking section 5, and genuine bills of the designated denomination are stacked in the second stacking section 6, and other bills to be rejected are stacked. It is accumulated in the third accumulation section 7. In particular, the fit note mode (d) and the fit/loss mode (c) are performed by specifying the denomination, so that when the detection unit 11 determines whether the incoming banknote is fit or defective, the denomination is specified. When determining the required denomination, it is only necessary to determine whether it is the specified denomination or not, so the time required to determine the denomination is extremely short compared to when the denomination is not specified. Therefore, it is possible to improve the accuracy and efficiency of classifying whether the banknotes are fit or not and whether the banknotes are fit or not. Next, the operation of this device will be explained. 6A, B, and C show the main flow chart of the operation, and when the power is turned on, the initial state is achieved. That is, the data memory etc. 3
4 is initialized (step S1), and each of the minimum unit storage areas (count number CTR, number of front and back sheets CTR, number of fit notes CTR, number of fit and defective notes CTR) in the quantity specification area NCTR has accumulations corresponding to each operation mode. The number of sheets (200 sheets for counting mode and front/back mode, 100 sheets for fit mode and fit/loss mode) is initially set (step S2), and the operation mode is set to counting mode (step S3). The contents (number of tickets, operation mode, ticket type) are displayed in each display area of the display section 2 (step
S4). Then, the backup plate 4A of the banknote takeout section 4 is raised (step S5). At this time, the operator usually uses the backup board 4A to collect the banknotes to be sorted and stacked.
It will be injected below. After that, pocket removal processing (details will be described later) J and operation unit processing (details will be described later) K are performed, and then the start
It is determined whether the FLAG is "1" (that is, whether the start/stop button 22 or the restart button 23 has been pressed to instruct the start of operation of the device) (step S6), and the start FLAG is "1". 1", the backup plate 4A of the banknote takeout part 4 is lowered (step S7), and the presence or absence of banknotes in the banknote takeout part 4 is determined based on the output signal from the stock detector _A0 . (Step S8). In addition, if it is judged as "NO" in step S8 and step S6, step S5 is executed.
will be returned to. When it is determined that there are banknotes as a result of the determination in step S8, it is determined whether or not to start (whether the start/stop button 22 has been pressed) (step S9). When it is determined that the start has started, the mode ELAG (which is set to "1" when the operation mode is specified in the operation unit process K, the details of which will be described later)
is set to "0" (step S10), and furthermore, the remaining banknotes in the first and second stacking sections 5 and 6 are set to "0" (step S10).
and the outputs from the second integrated detectors A1 and A2 (step S11). When it is determined that the person remains, the start instruction cannot be accepted. In other words, a status code reporting an operation error or abnormality, an operation confirmation display lamp LP12, and an alarm from the alarm device are displayed (step
S12) Start FLAG is set to “0” (step
S13) Return to step S5. Said step
When it is determined in S11 that there are no bills remaining, a start instruction is accepted, and it is determined whether the operating mode at this time is a good note or a good/damage mode (step S14), and it is determined whether the operation mode is a good note or a good/damage mode. (counting, front/back mode), data memory counter clearing process (details will be described later) L
, the driving of a motor (not shown) that is the drive source for the banknote takeout section 4, the transport section 10, etc. (step S15), and the display of the number of bills set and displayed as a result of the operation section processing K (details will be explained in the operation section processing K). Erase (step
S16) is performed. Note that when it is determined in step S14 that the denomination is a good bill or a good/loss mode, it is determined whether the denomination has been specified (step S17), and if it is determined that the denomination has been specified, the counter in the data memory is cleared. Proceeding to process L, if it is determined that no designation has been made, the process advances to step S12, where an operation error or the like is displayed. When it is determined in step S9 that the process has not started (that is, when the restart button 23 is pressed), it is determined whether the mode FLAG is "1" (step S19). If it is determined to be "1", the process returns to step S5 via step S12 and step S13 in which an operation error or the like is displayed in order to disable input by pressing the restart button 23. This is because the fact that the mode FLAG is "1" at this time means that a new operation mode (a different operation mode from the previous press of the start button 22) was specified before the restart button 23 was pressed. Moreover, when the restart button 23 is pressed, unlike when the start button 22 is pressed, the presence or absence of remaining banknotes in the stacking section is not determined (step S11), so that different types of banknotes are not mixed and stacked when restarting. This is to do so. Said step
If it is determined that the value is not "1" in S19, it is determined whether the operating mode at this time is a fit note or a fit/loss mode (step S20). ), a motor (not shown), which is a driving source for the banknote takeout section 4, conveyance section 10, etc., is driven (step 22), and a restart instruction is received. When it is determined in the step S20 that the banknote is a good bill and the denomination is in a fit/loss mode, it is determined whether or not the denomination has been changed (step S23), and if the denomination has not been changed, the process proceeds to the step S22 and a restart instruction is accepted. and if it has been changed, the process advances to step S12 where an operation error or the like is displayed. The reason why a restart instruction is issued in the case of a change in denomination is because when the restart button 23 is pressed, the presence or absence of remaining banknotes in the stacking section is not determined (step S11), unlike when the start button 22 is pressed. This is to prevent different types of banknotes from being mixed and stacked when restarting. After the start instruction or restart instruction is received as described above, a process M of adding the number of sheets to be conveyed (details will be described later) is performed, and the number of sheets is displayed based on the detection result of the detection unit (step 1). S24).
Then, it is determined whether there is an instruction to stop the device by pressing the start/stop button 22 (step S25), whether there are any banknotes (tickets) in the banknote takeout unit 4 (step S26), and whether each stacking unit 5, 6, 7 is full. or not (step S27),
Whether or not the number of sheets accumulated in the first and second stacking sections 5 and 6 matches the specified number of sheets (step S28).
are sequentially determined, and if each determination is ``YES'', a drive motor (not shown) is stopped (step S29). Note that when it is determined in step S27 that the stacking section is full, or when it is determined in step S28 that the stacking section matches the designated number of sheets to be stacked, a full display is performed (step S30) before the motor is stopped (step S29). In addition, each of the above judgments (step S25)
~S28) If the result is "NO", it is determined whether there is a failure such as a jammed banknote (step S31),
If it is determined that there is no failure, the process returns to the process M for adding up the number of transported sheets, and if it is determined that there is a failure, a status code corresponding to the content of the failure is displayed (step S32), and this display continues until the reset button is pressed. (step S33), and
When it is determined in S33 that the reset button has been pressed, failure processing (details will be described later) N is performed and the drive motor is stopped (step S29). Next, the pocket removal process J will be explained with reference to FIGS. 7A and 7B. This process means the process when the banknotes stacked in the stacking sections 5, 6, and 7 are removed. First, in order to recognize whether banknotes have been removed from the first stacking section 5, it is determined whether there are banknotes in the first stacking section 5 via the first stacking detector A1 (step S35). When it is determined that there are no banknotes, that is, that the banknotes have been removed, it is determined whether the stored value of the first stacking section current area CACTR is zero (step S36). If it is determined that the number of sheets is not zero, it is determined whether the first stacking section 5 is full (step S37) and whether the number of stacked sheets in the first stacking section 5 matches the specified number of sheets (step S37).
S38) are performed sequentially, and if any of the determination results is "YES", the upper stack full indicator lamp LP14 is turned off to indicate that the banknotes have been successfully extracted from the first stacking section 5. (step)
S39). If the determination results in step S37 and step S38 are both "NO", it means that the banknotes were removed even though the banknotes were not full and the specified number of banknotes had not been reached, so a status code indicating an operation error is set. An alarm is displayed (step
S40). and the step S39 or step S40
After this is executed, in order to store the number of banknotes that have been stacked and pulled out, the current area CACTR for the first stacking section is set at the time of banknote extraction.
The value stored in the backup area BACTR for the first accumulation section is added to the value stored in the backup area BACTR for the first accumulation section.
Store in BACTR (step S41). Thereafter, it is determined whether the specified operation mode is counting mode or obverse mode (step S42), and when it is determined that it is counting mode or obverse mode, the number of banknotes that have been stacked and extracted is added up and stored. Therefore, when the banknotes are removed, the value is added to the value stored in the current area CACTR for the first stacking section, and this is added to the value stored in the current area ACTR for the first stacking section.
(step S43). Note that the accumulation late area ACTR stores the total cumulative value without distinguishing between the banknotes taken out from both the stacking sections 5 and 6. Further, when it is determined in step S42 that the mode is not the counting mode or the front/back mode, the above-mentioned cumulative addition process is not performed. Therefore, only in the counting mode [counting mode (a) and front/back mode (b)] whose main purpose is counting banknotes, which corresponds to the deposit processing in banking, etc., the cumulative addition of processed banknotes is performed and the counting is performed. After the mode is executed, there is a sorting mode [fitness mode
(c) and genuine note mode (d)], since the processed banknotes are not included in the cumulative addition, they can contribute to accurate deposit processing. Note that after the processing in step S43, the stored value of the current area CACTR for the first stacking section is set to zero, and the stored value of the number of stacked sheets P1CTR of the first stacking section is set to zero (step S43).
S44). Further, when it is determined that there are banknotes as a result of the determination in step S35, that is, that banknotes have not been removed, the current area CACTR for the first stacking section is
A judgment is made as to whether the stored value of is zero (step
S45), when it is determined that the banknote is zero, this judgment result means that the operator once took out the banknote from the first stacking section 5 and put it back again, so the status code corresponding to this operation error and Display a warning (step S46). Note that if the judgment in step S45 is not zero, this judgment result means normal, and no processing is performed. Further, when the judgment in step S36 is zero, this judgment result has already been determined in step S44.
This means that the processing has been completed, so no processing is performed. The process performed when banknotes are removed from the second stacking section 6 is also the same as described above. Note that FIG. 7 mainly shows the processing for the first accumulation section 5,
Parts that change when applied to the processing for the second accumulation unit 6 are described in parentheses next to the relevant step, and their explanation will be omitted. After the extraction processing from the first accumulation section 5 or the second accumulation section 6, the extraction processing from the third accumulation section 7 is performed.
a third to recognize whether a banknote has been removed from the
It is determined whether there are banknotes in the third stacking section 7 via the stacking detector A3 (step S47). No banknotes,
That is, when it is determined that banknotes have been removed, the stored value of the number of banknotes P3CTR accumulated in the third stacking section is set to zero (step S48), and the reject full indicator lamp LP16 is turned off (step S49).
The pocket is removed and the process is completed. Next, the contents of the operation section process K will be explained with reference to the flowchart shown in FIG. First, it is determined whether the amount display or the number of tickets display is selected by the amount/number of tickets switch 26 (step S50). If it is determined that the amount display is selected, the number of digits of the amount for each denomination is set to the maximum number of digits that can be displayed on the display section 2 in the memory contents of the second display area D2CTR. It is determined whether there is an overflow (step S130), and if it is determined that there is a digit overflow, the stored contents of the first display area D1CTR are forcibly displayed on the display section 2 (step S131), and the digit overflow is detected. If it is determined that the selected operation mode is not selected, the contents of the second display area D2CTR corresponding to the selected operation mode are displayed (step S51). Therefore, the second
The operator's Appropriate display processing will be performed without any intervention. If it is determined that the number display is selected, it is determined whether the specified operation mode is counting mode (a) (step S52), and it is determined that the specified operation mode is counting mode (a). Sometimes, the number of digits of the amount for each denomination is displayed on the display section 2 in the memory contents of the second display area D2CTR.
It is determined whether there is an overflow to the maximum number of digits that can be displayed (step S132), and if it is determined that there is an overflow, only the number of coins by denomination, which is the memory content of the first display area D1CTR, is displayed. 2 (step S133), and when it is determined that there is no digit overflow, the first display area D1 is displayed.
The number of coins for each denomination stored in CTR and the total amount stored in second display area D2CTR are displayed (step S53). Therefore, if the number of digits of the amount of money for each denomination stored in the second display area D2CTR exceeds the maximum number of digits that can be displayed on the display section 2, that is, if the digits overflow. Even in this case, appropriate display processing can be performed without any intervention by the operator. Also, the step S
When it is determined in step 52 that the counting mode is not (a), it is determined whether the specified operation mode is the front/back mode (b) (step
S53'), and when it is determined that the mode is front/back mode (b), it is determined whether a denomination is specified (step S54).
If it is determined in step S54 that the denomination is not designated, the determination in step S132 is performed, and the display in either step S53 or step S133 is performed based on the determination result.
When it is determined in step S54 that the denomination is specified, the third display area D3
The contents stored in the CTR, particularly in this case, the number of front tickets, the number of back tickets, and the total number of both are displayed (step S55). Further, when it is determined in the step S53 that the mode is not the front/back mode (b), that is, the normal note mode (d) or the normal/damage mode (c), the operation is performed among the contents stored in the third display area D3CTR. Applicable modes are displayed (step S55). Here, the display contents of step S51, step S53, and step S55 are specifically shown in Tables 2-1 to 2-7 in correspondence with each operation mode. (a) Table 2-1 shows the counting mode without denomination specification (a-
This shows the case of 1), and when the number of coins display is selected, the number of coins for each denomination is displayed in the display spaces 2A to 2D, and the total amount is displayed in the display space 2E (step S53).
(equivalent to the display in step S51), when the amount display is selected, the amounts for each denomination are displayed in the display spaces 2A to 2D, and the total amount is displayed in the display space 2E (equivalent to the display in step S51). (b) Table 2-2 is -Denomination specified counting mode (a-2)
For example, this shows the case where 10,000 yen is specified, and when the number of coins display is selected, the number of coins for each denomination is displayed in display spaces 2A to 2D, and the total amount is displayed in display space 2E (step 53). (equivalent to the display), and when the amount display is selected, the amounts for each denomination are displayed in spaces 2A to 2.
D and the total amount is also displayed in the display space 2E (corresponding to the display in step S51). (c) Table 2-3 shows 2 denomination designated counting mode (a-3)
For example, this shows the case where 10,000 yen or 1,000 yen is specified, and when the number of coins is selected, the number of coins for each designated denomination is displayed in display spaces 2A and 2C, and their total amount is displayed in display space 2E ( (corresponding to the display in step S53), and when the amount display is selected, the amounts for each designated denomination are displayed in the display spaces 2A and 2C, and the total amount is displayed in the display space 2E (corresponding to the display in step S51). (d) Table 2-4 is front/back mode without denomination specification (b-
This shows the case of 1), and when the number of coins display is selected, the number of coins for each denomination is displayed in the display spaces 2A to 2D, and the total amount is displayed in the display space 2E (step S53).
(equivalent to the display in step S51), when the amount display is selected, the amounts for each denomination are displayed in the display spaces 2A to 2D, and the total amount is displayed in the display space 2E (equivalent to the display in step S51). (e) Table 2-5 is - denomination specified front and back mode (b-2)
For example, this shows the case where 10,000 yen is specified, and when the number of tickets is selected, the number of front tickets and the number of back tickets are displayed in display spaces 2C and 2D, and the total number is displayed in display space 2E (step 1). (corresponding to the display in step S55), and when the amount display is selected, the total amount of the front and back sides of the ten thousand yen bill is displayed in the display spaces 2A and 2E (corresponding to the contents in step S51). (f) Table 2-6 shows the case of the correct ticket mode (d), for example, when 10,000 yen is specified, and when the number of tickets is selected, the number of regular tickets and the number of regular tickets are shown. The total number of bills is displayed in display spaces 2C and 2D, and the total number of bills is displayed in display space 2E (corresponding to the display in step S55), and when the amount display is selected, the total amount of the front and back sides of the ten thousand yen bill, which is a genuine bill, is displayed in the display space. 2A and 2E (corresponding to the contents of step S51). (G) Table 2-7 shows the fit/loss mode (c), for example, when 1,000 yen is specified, and when the number display is selected, the number of fit notes of 1,000 yen and the number of unfit notes of 1,000 yen are displayed in the display space. 2A and 2B, and their total number is displayed in display space 2E (corresponding to the display in step S55), and when the amount display is selected, the total amount of fit and unfit bills, which are thousand yen bills, is displayed in display space 2C. , 2E (corresponding to the contents of step S51).

【table】

[Table] As is clear from the explanations of Tables 2-1 to 2-4 above, the amount/quantity switch 26 displays the amount,
Regardless of which number display is selected, the total amount of banknotes accumulated for each denomination is displayed as the total amount, so even if the number display is selected, the operator has to work to calculate the total amount from the number of bills for each denomination. There is no need to calculate the product of the denomination and the number of coins for each denomination and add them to obtain the total amount, and the complexity of deposit processing caused by the total amount calculation work can be eliminated. Furthermore, as is clear from the explanation of Table 1 and Tables 2-5 to 2-7 above, when both stacking sections 5 and 6 are specified by denomination, the number of coins display is selected by the amount/number of coins switch 26. When a banknote is selected, the number of banknotes sorted and stacked in each stacking section according to the specified denomination (number of front and back, fit and unfit) is displayed. It can be sealed as is using a sealing machine, making the sorting work extremely simple. Next, it is determined whether various buttons provided on the operation section 1 have been pressed (step S56), and when it is determined that they have been pressed, various processes are performed depending on the type of button that has been pressed. First, it is determined whether the collation/(print) button 24 has been pressed (step S57), and when it is determined that it has been pressed, it is determined whether the value stored in the collation CTR in the another area OCTR is zero, that is, whether this press is the first time. A determination is made (step S58). When it is determined that it is the first time, the contents stored in the display area DCTR are printed by the printer 8 (step S59), and then 1 is added to the stored value in the collation CTR (step S60). Further, as a result of the determination in step S58, if it is determined that this is not the first press, that is, it is the second press, the stored contents of the accumulation area ACTR are displayed (step S61), and the printer 8 is Then, the stored contents of the accumulation area ACTR are cleared (step S63), and the stored value of the collation CTR is set to zero (step S64). Match like this/
(Print) Number of presses of button 24 (1 or 2 times)
Since the displayed content and printed content are controlled to be changed by , the number of buttons can be reduced for each type of processing operation, and the operating section can be made smaller. When it is determined in step S57 that the collation/(print) button 24 is not pressed this time, the stored value of the collation CTR is set to zero (step S57).
S65), and then it is determined whether the numeric keypad 21 was pressed this time (step S66). Numeric keypad 21
If it is determined that has been pressed, the number FLAG is set to "1" (step S67), the number entered on the numeric keypad 21 is stored in the number BUFF (step S68), and the entered number is displayed as above. Each time a number is entered from the right side of space 2E to the left side, the number is shifted and displayed (step
S69). When it is determined in step S66 that the numeric keypad 21 is not pressed this time, the count button 15, the front/back button 16, the fit note button 17, or the fit/loss button 18 is pressed.
It is determined whether the operation mode has been specified this time by pressing the button (step S70), and when the operation mode has been specified, it is determined whether the number FLAG is "1" or whether the numeric keypad 21 has been operated before the mode specification. A determination is made (step S71), and when it is determined that the number FLAG is "1", it is determined whether the stored content of the number BUFF is between 1 and 200, that is, within the maximum number of sheets that can be stacked (step S71). S72). If it is determined that it is 1 to 200, the quantity specification area corresponding to the specified mode
By setting the value of the number BUFF in NCTR (step S73) and setting the number FLAG to "0" (step S74), a new number of stacked sheets is specified. Also, step S71 or step
If the judgment result in S72 is "NO", that is, even if the operation mode is specified, a new number of sheets to be stacked is not specified, the number of sheets to be stacked is preset in the quantity specification area NCTR corresponding to the operation mode. is read out and used (step S75). As mentioned above, this device has a quantity specification area with the minimum unit storage area corresponding to each operation mode, so even if the operation mode is changed, the quantity specification area NCTR corresponding to the operation mode is preset (in advance). It is possible to use the set number of sheets to be stacked, and it is possible to eliminate the operational complexity of having to reset the number of sheets to be stacked each time. and step
The initial sheet value read out in S75 or the designated sheet value set in step S73 is displayed up to three digits from the left side of the third diagram in display space 2A (step S73).
S76). This display is performed until the start/stop button 22 is pressed, for example, up to step S16 (motor rotation) shown in FIG. Since a display space dedicated to the set number of images is not required, it is possible to contribute to miniaturization of the display section. After the step S76, the mode FLAG is set to "1" (step S77),
Then, it is determined whether the designated operation mode is counting or front/back mode (step S78). When it is determined that the counting mode (a) or the front/back mode (b) is selected, the operation for specifying all denominations is performed (step S79).
Display lamp PL5, PL for displaying denomination and denomination
7, PL9 and PL11 are lit (step
S80). Note that in step S78, the valid note mode (d)
Or, if it is determined that the mode is fitness/loss mode (c), the denomination is cleared (step S81). When it is determined in step S70 that no mode has been specified this time, it is determined whether the sharp button 20 has been pressed (step S70).
S135), and a number when it is determined that it has been pressed.
It is determined whether FLAG is "1" (step S136). If it is determined that it is "1", the contents of the number BUFF are set to the transaction number BUFF (step S137), and then the number FLAG is set to "0".
(Step S138). In this way, the transaction number will be entered into the device. Further, when it is determined that the sharpening button 20 is not pressed as a result of the determination in step S135,
It is determined whether the plank button 19 has been pressed (step S139), and when it is determined that the plank button 19 has been pressed, it is determined whether the number FLAG is "1" (step S140). If it is determined to be "1", manually input the contents of the number BUFF BUFF
(step S141), then set the number FLAG
is set to "0" (step S142). The contents set in the manual input BUFF here are not the number or amount of banknotes processed by the machine, but are added to the number and amount of banknotes processed by the machine as a result of visual judgment by the operator since machine processing is not possible. This is the content to be stored through the operation of the numeric keypad. In step S139, blank button 1 is pressed this time.
When it is determined that 9 has not been pressed, it is determined whether the reset button 25 has been pressed (step S83), and when it is determined that the reset button 25 has been pressed, the number is
It is determined whether FLAG is "1" (step S84). If it is determined to be "1", the number FLAG is set to "0" (step S85), the specified number of coins and specified denomination entered using the numeric keypad 21 are cleared, and their display contents are erased (step S85). S86). In step S83, the reset button 25 is pressed this time.
When it is determined that the button is not pressed, it is determined whether the start/restart state is entered by inputting the start/stop button 22 or the restart button 23 (step S88), and if it is either start or restart, the number is Every time
FLAG is “1” or start/stop button 2
2 or restart button 23 is pressed, it is determined whether the numeric keypad 21 is being operated (step
S89). When the number FLAG is determined to be "1", the number 1 stored in the number BUFF,
The denominations corresponding to 2, 3, 4 are 10,000, 5,000, 1,000,
500 is set to the denomination BUFF and the denomination is designated. (Step S90). In this way, the input from the numeric keypad pressed before the start or top start instruction is designated as the denomination type, and furthermore, as mentioned above, the input from the numeric keypad pressed before the specification of the operation mode is designated as the number of accumulated coins. Therefore, there is no need to provide separate input means, and the operating section 1 can be made smaller. After the denomination is specified in step S90, the content display lamps LP5, LP7, LP9, and LP11 corresponding to the denomination display corresponding to the designated denomination are lit (step S91), and the number FLAG is lit. is “0”
(step S92), and the start FLAG is "1"
(Step S93). Note that step S89
If the judgment result number FLAG is not "1", that is, if the numeric keypad 21 is not operated, the denomination is not designated and the process proceeds to step S93. By passing through each of the above steps S, the operation unit processing is completed. Next, the data memory counter clearing process L will be explained with reference to the flowchart shown in FIG. Since this process is performed when the start/stop button 22 is pressed to instruct to start, it clears the current area CCTR (step S95), clears the backup area BCTR (step S96), and clears the display area DCTR. clear (step S97) and accumulated quantity area PCTR
Clearing (step S98) is performed in sequence and the process ends. At this time, Akiyum Late Area
ACTR is not cleared. Although not shown, when a restart is instructed, the backup area BCTR is not cleared in addition to the accumulation area ACTR. Next, the conveyed sheet number adding process M will be explained with reference to the flowchart shown in FIG. Banknotes are removed from the banknote removal unit 4 (step
S100), when the taken-out banknote passes through the first passage detector C1, 1 is added to the number of taken-in bills P0CTR (step S101), and the detection result of the taken-in banknote by the detection unit 11 is read out. (Step S102). First, it is determined whether the banknote should be rejected (step S103), and if it is, the flapper 1
2A to guide the taken-in bill to the third stacking section 7 side (step S104), and when the bill passes through the fourth passage detector C4, the number of bills P3CTR accumulated in the third stacking section is increased by 1. is added (step
S105). If it is determined in step S103 that the item should not be rejected, the first accumulation unit 5
It is determined whether the items should be accumulated in the
S106), when it is determined that the banknotes should be stacked in the second stacking unit 6, the flappers 12A and 12B are operated to guide the number of bills to the second stacking unit 6 (step S107), and the banknotes are transferred to the third stacking unit 6 (step S107). When the sheet passes through the passage detector C3, 1 is added to the number of sheets P2CTR accumulated in the second accumulation section (step S108). Then, 1 is added to the current area CBCTR for the second accumulation section (step S109), and the sum of the stored value of the current area CBCTR for the second accumulation section and the stored value of the second backup area BBCTR is displayed. Transfer to area DCTR (step S110).
Since the contents stored in the display area DCTR at this time are displayed in step S24 of the main flow shown in FIG. 6, the number of accumulated sheets is displayed sequentially. Also, the first determination result in step S106 is
When it is determined that the banknotes should be stacked in the first stacking unit 5, the flappers 12A and 12B are operated to guide the banknotes toward the first stacking unit 5 (step S111), so that the banknotes pass through the second passage detector C2. 1 is added to the number P1CTR of sheets accumulated in the first accumulation section (step S112). Then, 1 is added to the current area CACTR for the first accumulation section (step S113), and the stored value of the current area CACTR for the first accumulation section and the first backup area are
The display area displays the sum of the stored value of BACTR.
Transfer to DCTR (step S114). Since the contents stored in the display area DCTR at this time are displayed in step S24 of the main flow shown in FIG. 6, the number of accumulated sheets is displayed sequentially. Next, the failure processing N will be explained with reference to the flowchart shown in FIG. When a failure such as a banknote jam occurs, first, the values stored in the backup area BCTR (backup area BACTR for the first stacking section and backup area BBCTR for the second stacking section) at this time are transferred to the display area DCTR. (step S120), and the rotation of the motor is stopped for n seconds (step S121). Then, it is determined whether the banknotes have been removed from both stacking sections 5 and 6 and remain (step S122), and while it is determined that the banknotes remain, the status code corresponding to the failure content and the banknote remaining error (both banknotes) are displayed. (The banknotes have not been completely removed from the stacking units 5 and 6) is displayed (step 5).
S123). When it is determined that there are no banknotes remaining, the current area CCTR is cleared (step S124), and the contents transferred to the display area DCTR in step S120 are displayed on the display section (step S125). In this way, when banknotes are taken out from both stacking sections 5 and 6 when a fault occurs, the contents stored in the backup area BCTR at the time of the fault are displayed in the display area.
Transferred to DCTR and this display area
The memory contents of DCTR are displayed on the display section. Therefore, when a failure occurs, only the accumulated processing results are canceled and the processing results for that lot are easily returned to the state before the failure occurred, so the efficiency of processing banknotes in the event of a failure can be significantly improved. . It should be noted that the above embodiment is merely an example, and it goes without saying that various modifications can be made within the scope of the gist of the present invention. For example, the object is not limited to banknotes, but can also be applied to various articles such as other securities, and therefore the number of objects is not limited to the number of sheets. [Effects of the Invention] As is clear from the above description, in the display device of the present invention, when the number of digits of the amount stored in the display area exceeds the maximum number of digits that can be displayed on the display section, Since only the number stored in the display area is controlled to be displayed on the display section, the number of digits of the amount stored in the display area exceeds the maximum number of digits that can be displayed on the display section. This has excellent effects such as being able to perform appropriate display processing without intervening operator operations even in the case of a remote control, and contributing to the simplification of display operations.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing the external appearance of a device according to an embodiment of the present invention, FIG. 2 is a schematic explanatory diagram showing the internal configuration of the device according to the embodiment, and FIG. 3 is a diagram showing the display section and operation section of the device according to the embodiment. FIG. 4 is a block diagram of the configuration of the device according to the embodiment, and FIG. 5 shows A, B, C, D, E,
F and G indicate the memory map of the storage means, and each indicates the current area CCTR, backup area BCTR, display area DCTR, accumulation area ACTR, and quantity specification area.
NCTR, integrated quantity area PCTR, another area
Figures 6A, B, and C are flowcharts showing the main flow of the device according to the embodiment, Figures 7A and B are flowcharts showing details of the pocket extraction process, and Figure 8A is a flowchart showing the details of the pocket extraction process. , B is a flowchart showing details of operation unit processing, FIG. 9 is a flowchart showing details of data memory counter clearing processing, FIG. 10 is a flowchart showing details of conveyed sheet count addition processing, and FIG. 11 is a flowchart showing details of processing for adding the number of sheets to be conveyed. It is a flowchart showing details of processing. DCTR...display area, 2...display section,
30...Control means.

Claims (1)

[Claims] 1. A display area that stores the amount and number of processed objects for display, a display section that selectively displays the stored contents of this display area, and the number of digits of the amount stored in the display area. If the number of digits stored in the display area exceeds the maximum number of digits that can be displayed on the display section, the display is characterized by comprising: control means for controlling the number stored in the display area to be displayed on the display section. Device.