DE3201956A1 - MACHINE FOR ORDERING BANKNOTES - Google Patents

Description

* - 80430

LAUREL BANK MACHINE CO., LTD. Tokyo (Japan)

Machine for sorting banknotes

The invention relates to a machine that is used for The purpose of arranging banknotes is and is suitable for dividing banknotes into groups according to the content of the groups to change.

Known machines for sorting banknotes have three modes of operation. The first operating mode is the "sorting test". Banknotes are rechecked that were already due to the counter clerks when they were picked up at the counter groups corresponding to a visual test in one value each have been and will be the banknotes of each group into Bundles of one hundred banknotes each divided and placed so that the front of each banknote is on the same side. The second operating mode is "sorting". Be there Banknotes of different denominations that were randomly stored, for example, in a banknote storage machine, in Each group is divided into groups corresponding to one value. The third operating mode is the "health check".

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The usual machines for sorting banknotes are not designed for a "status and sorting check" mode. suitable. This test is described in detail below. In it the total sum of the banknotes of one value is given existing groups, which are kept in the storage machine, are calculated and at the same time become the banknotes the value most frequently available on the basis of a visual check, divided into bundles of 100 banknotes of the same type and placed in these bundles so that the face of each banknote is on the same side.

The usual machines for sorting banknotes have the disadvantage that the mixed banknotes of a group must be sorted beforehand according to their values.

The object of the invention is to provide a machine for sorting banknotes which is suitable for "Status check", "Sort check" and "Status check" operating modes Sorting check "is suitable.

According to the invention, the machine has for

Arranging bank notes a test part arranged on a bank note path for testing the bank notes and for delivering the test result indicating signals, an operating mode control section on which several operating modes can be selected and which emits control signals which indicate how the bank notes are to be divided on the basis of the selected operating mode, and a distribution control part for controlling switches for the purpose of distributing the banknotes on the basis of the operation mode control part emitted signals and the signals emitted by the test part.

An embodiment of the invention will now be described in detail with reference to the accompanying drawings. In this shows

FIG. 1 shows, in a schematic outline, the structure of a machine for arranging banknotes according to the invention,

Figure 2 is a block diagram to explain the criteria according to which the bank notes according to the selected Operating mode have been sorted and stacked,

FIG. 3 shows details of the circuit diagram Distribution control part of the banknote sorting machine

FIG. 4 shows a table from which the data determined in each operating mode emerge.

In FIGS. 1 and 2, one recognizes a bank note receiving part 1 which is used to hold bank notes of one value or to feed banknotes deposited by customers to a task part 2. The bank notes located in the receiving part 1 are fed from a conveyor roller 2a of the task part 2 individually one after the other onto a conveyor track 3 on which they a test part 4 are fed. A task control part 5 controls the operation of the task part based on the output signals a task sensor 6, the output signals of a bank note sensor 6 and the output signals of the checking section 4 and the mode control section 8, which will be described below. Details of the task control part 5 emerge from the applicant's Japanese utility model No. 47465/1970. Of the Task control part 5 is designed so that it only works when the "sorting test" mode or the operating mode "Status and sorting check" has been selected, but not if the "Status check" mode has been selected. at the operating mode "sorting test" or "status and sorting test" counts the task control part 5 the number of the Sensor 6 emitted 1-signals. The task control part 5

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registers both banknotes of the preselected value that pass the sensor 6 with the front facing upwards, as well as banknotes of other denominations or banknotes with the front facing downwards. The recording is done on the basis each of the data signals from the outputs JD1 to JD4 and output M1 or M3 of the operating mode control part 8 and each of the data signals that are output from the outputs JD1 to JD4 and the output OS of the test part 4 will. When capturing any note that does not have the preselected value or whose face is facing down, the value 1 is subtracted from the count determined as above. The number obtained in this way indicates how many Banknotes of the preselected value have passed the sensor 6 with the front facing upwards. If so determined number reaches a predetermined value, for example the value 100, the task of banknotes by the Task part 2 interrupted. If 100 bank notes are stacked in a first stacking part 17 described below, can a task of further banknotes can be prevented.

In the test part 4, the bank notes are due their latitude and longitude, their optical pattern, their magnetic pattern, etc. As a result of this test, various Signals are emitted which represent the results of the test. For example, if the banknote does not meet any of the criteria is sufficient, according to which the test part 4 is tested, it emits a 1 signal via its output IM (see FIG. 3). When a the banknote that has been posted meets at least one of the test criteria, but is damaged and therefore unsuitable for circulation, the test part emits a 1 signal via its output DM (see Figure 3). If the fed bank note satisfies at least one of the test criteria, the test part gives depending on the value the supplied bank note from a 1-signal via one of its outputs JD1 to JD4 (see FIG. 3). For example, the

Test part 4 output the 1 signal via its output JD1, if the fed bank note is a 10,000 yen note via its output JD2 if the fed bank note is a 5,000 yen note is via its output JD3 if the supplied bank note is a 1000 yen note and via its output JD4 if the supplied one Banknote is a 500 yen note. When a 1 signal is given One of the outputs JD1 to JD4 checks whether the front the fed banknote has turned up or down. For a banknote with the face facing up, will a 1 signal via the output OS (see FIG. 3) and a bank note whose reverse side is facing upwards becomes a 1 signal via the output RS (see Figure 3). These output signals of the inspection part 4 are supplied to a distribution control part 7 and a computation part 23, which will be described below will.

The operating mode control section 8 outputs signals indicating which of the three operating modes has been selected. For example, it emits a 1-signal via the output M1 (see FIG. 3) when the "sorting check" mode has been selected. At the same time, the operating mode control part 8 emits a signal which indicates which bank note value has been preselected. For example, the operating mode control section 8 emits a 1 signal each via the outputs JD2 to JD4 (FIG. 3) if 10,000 yen notes have been preselected, via the outputs JD1, JD3 and JD4 if 5000 yen notes have been selected via the outputs JD1, JD2 and JD4 if 1000 yen notes have been selected and via the outputs JD1 to JD3 if 500 yen notes have been selected. If the operating mode "status and sorting test ¹¹ " has been selected on the operating mode control part 8, it emits a 1 signal via the output M3 (see FIG. 3) and, at the same time, as in the "sorting test" operating mode, a signal indicating which Note value has been preselected.

"State check" mode has been selected, it emits a 1-signal via its output M2 (FIG. 3). This from that Mode control part 8 output signals are the distribution control part 7 and the computing part 23 supplied. A first sensor 9 is provided which monitors the passage of banknotes is detected and when a bank note is detected, it emits an! It a second sensor 10 is also provided which, like the first sensor 9, detects the passage of bank notes and 1 signals to the distribution cross section 7. As follows is described in more detail with reference to Figures 2 and 3, the distribution control part 7 controls the first switch 11, the second switch 12 and the third switch 13 based on the output signals of the test part 4, the operating mode control part 8 and of the first sensor 9 or the second sensor 10. If a 1-signal is applied to the inputs IN of the switches 11 to 13 (FIG. 3) is, the first switch 11 rotates counterclockwise and the second switch 12 and the third switch 13 rotate clockwise. If at the inputs OFF of the turnouts 11 to 13 a 1-signal is applied, the first switch 11 rotates clockwise and the second switch 12 and the rotate third switch 13 counterclockwise so that the switches return to their starting position shown in FIG. With the help of switches 11, 12 and 13, the conveyor track can therefore be determined. Rotatable supports 14 to 16 are provided, which on its circumference with a plurality of retaining plates 14a, 15a and 16a are provided. The bank notes conveyed on a branch track 3a get between the holding plates 14a and are between them held. The bank notes held there are turned into a first stack part by rotating the rotatable carrier 14 clockwise 17 moved and stacked there. When 100 bills have been stacked in the stacking part 17, it becomes composed of 100 bills Stack fed to the bundling part 18 and bundled in this. In this embodiment of the invention, the first stack part 17 in the "sorting test" and operating modes

"Status and sorting check", but not for the operating mode "Health Check" is used. As a result, the stacking part 17 has only a small stacking capacity.

The bank notes conveyed on a branch track 3b pass between the holding plates 15a and are held there. The bank notes held in this way are fed to a second stacking part 19 by a rotation of the rotatable carrier 15 and are stacked therein. The bank notes conveyed on a branch line 3c are stacked in a third stacking part 20 and the banknotes conveyed on a branch line 3d are stacked in a fourth stacking part 21. In this embodiment, according to FIG. 2, a group of bank notes is stacked in each of the first stacking part 17, the second stacking part 19, the third stacking part 20 and the fourth stacking part 21. If the operating mode "sorting check" has been selected in the operating mode control part 8, those banknotes of the value preselected on the operating mode control part are stacked in the first stacking part 17, the front of which is turned up (preselected, correctly positioned notes) and in the second stack part 19 those banknotes of the preselected value, the back of which is facing upwards (preselected, upside-down notes). Bank notes of non-preselected values ('light preselected notes) and damaged notes not suitable for circulation are stacked in the third stacking part 20: Bank notes that cannot be checked are stacked in the fourth stacking part 21. If the "status check" mode has been selected on the mode control part 8, the faultless bank notes suitable for circulation are stacked in the second stacking part 19, the damaged bank notes in the third stacking part 20 and the non-verifiable banknotes in the fourth stacking part 21 . If the operating mode "status and sorting test ¹¹ " has been selected on the operating mode control part 8, the preselected, correctly lying notes in the first stacking part 17, the preselected, incorrectly lying notes in the

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second stacking part 19, unselected notes and damaged notes in the third stacking part 20 and non-verifiable notes in the fourth stacking part 21 is stacked. One of the sensors 22a to 22d is provided on each of the branch tracks 3a to 3d, which detect the passage of the banknotes through the relevant branch line 3a to 3d and send corresponding signals to the distribution control part 7 and len arithmetic part 23. Each time a 1-signal νm is emitted by the first sensor 9, the arithmetic part 23 via the outputs JD1 to JD4 and M1 to M3 of the operating mode control section 5 8 and the 1-signals emitted via the outputs JD1 to JD4, OS, RS and DM of the test ceil 4 are decoded, thereby obtaining data indicating the values of the bills and the number of bills of each denomination. This becomes in the computing part 23 based on the output signals of the operating mode control part 8 and the test part 4, the corresponding total values are determined. For example, in the "sorting check" operating mode Obtain data which reverses the number of preselected * correct notes, the number of preselected obtained notes and the total number of preselected notes, as indicated in FIG. In the "health check" operating mode data is obtained showing the number of good notes, the number of damaged notes and the total number indicate the correct and damaged notes. In the "Status and sorting check" operating mode, data get, which the number of preselected, correct notes, the number of preselected, wrong notes, the number of unselected notes, the number of damaged notes, and the total number of preselected notes and the not specify preselected and damaged notes. These data obtained in each mode become one that is not shown Visual display device supplied.

Figure 3 shows a circuit diagram of an embodiment of the distribution control part 7 of Figure 2. Each of the The operating mode control part 8 output signal emitted via the output M1 or M3 reaches a value control circuit 25 via an OR element 26 to an input of an AND element 27.

Each output signal emitted by the operating mode control part 8 via one of the outputs JD1 to JD 4 arrives at one Input of the corresponding one of the exclusive OR gates 28a to 28d of the value control circuit 25. Each via one of the outputs JD1 to JD4 of the test part 4 output signal is on the other input of the corresponding one of the Exclusive-OR-Glie-. the 28a to 28d of the value control circuit 25 are applied. The output signal emitted via the output DM of the test part 4 arrives via a NOT element 29 of the value control circuit 25 to the other Input of the AND element 27. The output signal of the AND element 27 is sent to an input of one of the AND elements 30 and 31 created. The output signal of each of the exclusive OR gates 28a to 28d is applied to one input of an AND gate 32 is applied, the output signal to the other input of the AND gate 30 and via a NOT gate 33 to the other input of the AND gate 31 is applied. If on the operating mode control part 8 the operating mode "sorting test" or "status and sorting test" has been selected, so that a 1 signal is emitted via output M1 or M3, and the from the outputs JD1 to JD4 of the operating circuit control part 8 obtained, the preselected note value indicating data with the received from the outputs JD1 to JD4 of the test part, the The data indicating the value of the checked bank note match, the AND gate 30 of the value control circuit 25 outputs a 1 signal one of the AND gates 34 and 35 each to an input. For example, if at the mode control part 8 banknotes of 10,000 yen have been preselected, each is applied from the mode control section 8 to its outputs JD2 to JD4 1 signal is applied to the corresponding one of the exclusive OR gates 28b to 28d. If then the test part 4 via its output LD1 to the exclusive OR gate 28a the one 10,000 yen note outputs indicating 1-signal, the value control circuit 25 outputs a 1-signal to each of the AND gates 34 and 35. If among these Conditions of the test part 4 via its output OS Outputs a 1 signal, the AND gate 34 outputs a 1 signal to the

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Input D2 of a signal memory 36 from. If, on the other hand, the tested! 1 4 outputs a 1 signal via its RS output, from the AND gate 35 a 1 signal to the input D3 of the signal memory 36 submitted. This is also the case when other note values, for example 5000 yen banknotes, 1000 yen banknotes, or 500 yen banknotes have been selected. If, on the other hand, the output from the mode control part 8 and indicate the preselected note value The data and the data given by the checking part 4 and indicating the value of the checked banknote do not match, for example, if 8 banknotes of 10,000 yen have been preselected in the mode control section, so that in the value control circuit 25 the 1-signal to each of the exclusive-OR gates 28b to 28d is applied and the test part 4 for displaying a 1000-yen note a 1-signal only to the exclusive-OR gate 28c outputs, the AND element 32 of the value control circuit 25 does not output a 1 signal to the two AND elements 34 and 35, but instead the value control circuit 25 outputs a 1 signal to the input D 4 of the signal memory 36. If on the operating mode control part 8 the operating mode "sorting test" or "status and sorting test" has been selected and the value control circle the 1 signal to the AND element 34 or 35 or to the input D4 of the signal memory 36 and the test part 4 outputs a 1 signal outputs via its output DM, the output of the NOT element 29 of the value control circuit 25 is inverted, see above that the AND gate 27 does not emit a 1 signal. Therefore, in this case, the value control circuit 25 does not give a 1 signal to the AND element 34 or 35 or the input D4 of the signal memory 36. But at the same time the 1-signal is given by the output DM of the test part 4 is applied to input D5 of signal memory 36.

From the output M2 of the operating mode control part 8, the output signal is sent to one input of an AND element 38 of a status control circuit 37 is applied. From the output DM of the test part 4, its output signal is via a

NOT element 39 applied to the other input of AND element 38, the output signal of which is applied to one input of an AND element 40. Each of the test part 4 to his Output signals applied to outputs JDI to JD4 will also be applied the inputs of an OR gate 41 output, the output signal of which is applied to the other input of the AND gate 40. If, therefore, at the mode control part 8, the mode of operation "State check" has been selected, so that the 1-signal is sent from the output M2 to the state control circuit 37, and when the checking part 4 then emits signals indicating the values of the checked bank notes via its outputs JD1 to JD4 the status control circuit 37 sends a 1 signal to the input D1 of the signal memory 36. If on the operating mode control part 8 the "status check" mode has been selected and a 1 signal is sent to the AND gate 38 of the status control circuit 37 is applied and at the same time the test part 4 emits a 1 signal via its output JD1, which indicates a 10,000 yen note, thus the OR gate 41 of the status control circuit 37 outputs a 1 signal to the input D1 of the signal memory 36. Even if The status control circuit outputs signals indicating a different note value from the outputs JD2 to JD4 of the test part 37 a 1-signal at the input DI of the signal memory 36 from. If the status control circuit 37 outputs a 1 signal to the input D1 of the signal memory 36 and the test part 4 emits a 1 signal via its output DM, the output signal of the NOT element 39 of the state control circuit 37 becomes inverted, so that the AND gate 38 no longer emits a 1-signal and therefore the state control circuit 37 does not emit a 1-signal either the input D1 of the signal memory 36 outputs more.

That of the test part 4 via its output IM

The output signal is sent to input D6 of the signal memory 36. The output signal of the first control sensor 9 arrives to the control input t of the latch 36. If the

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first sensor 9 outputs a 1 signal to signal memory 36, the latch 36 stores the 1 and 0 signals applied to its inputs D1 to D6, and outputs the signals via the corresponding outputs Q1 to Q6. When a 1-signal is applied to the input t of the signal memory 36 and, for example, there is a 1 signal at its input D1, it emits a 1 signal via the corresponding output Q1. If, on the other hand, there is an 0 signal at input D1, the Signal memory 36 has a 0 signal via the corresponding output Q1 away. If a 1-signal is applied to the input t of the signal memory 36, it outputs this via its output Q 2 ! Signal or O signal, which is at its input D 2 and it emits the signals via the outputs Q3 to Q6 which are at the corresponding inputs D3 to D6. Each of the about the Outputs Q1 to Q5 of the signal memory 36 output 1 signals reaches an input OUT of the first switch 11 via an OR gate 42. In from the output Q6 of the signal memory emitted 1-signal arrives at the input EIN of the first switch 11. The first switch 11 is so designed that it blocks its input OUT for the application of a 1-signal if there is a 1-signal at its input IN.

The signals emitted from the outputs Q1 to Q6 of the signal memory 36 also reach the corresponding ones Inputs D1 to D5 of a signal memory 43. The output signal of the second sensor 10 is sent to the control input t of the latch 43 is applied. The latch has the same function as that described above Signal memory 36. Each signal output from the output Q1 or Q3 of the signal memory 43 passes through an OR gate to an input OUT of a third switch 13 and arrives at the same time via an OR gate 45 to an input IN of the second switch 12. A from the output Q2 of the signal memory 43

The given signal arrives via an OR gate 46 to an input IN of the third Which 13 and via an OR gate 45 to the input EIN of the second switch 12. The second switch 12 and the third switch 13 are designed similarly to the first Switch 11,

The mode of operation of this embodiment will now be explained with reference to FIGS. First is the mode of operation "Sorting check" is considered, in which the banknotes of each group, which have already been sorted according to value, are checked. The "sorting check" mode is selected on the operating mode control section 8, the value of the bank notes being preselected which are to be introduced into the receiving part 1. When presorted banknotes of this value are introduced into the receiving part 1 have been, a start switch, not shown, is operated, whereby each part of the machine in its operating condition is brought. The operating mode control unit now outputs 8 from its output M1 via the OR gate 26 and the AND gate 27 of the value control circuit a 1 signal to each of the AND gates 30 and 31 and are the signals indicating the preselected note value from the outputs JD1 to JD4 of the mode control section 8 to the exclusive-OR gates 28a to 28d of the value control box 25, which as a result 1 signal at the input D4 of the signal memory 36 emits. At this tent point, the first sensor 9 does not emit a 1-signal, so that a 1-signal is not applied to any of the inputs IN of the first, second and third switches 11, 12 and 13. As a result When the start switch is pressed, the conveying roller 2a of the loading part 2 rotates so that those given in the receiving part 1 are rotated Bank notes are fed individually one after the other to the test part 4. In this the banknotes are checked. The exam result is indicated by 1 or 0 signals, which test part 4 outputs via its outputs JD1 to JD4, OS, RS, DM and IM.

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If a banknote is fed to the test part 4, which cannot be tested, gives the test part 4 via his Output IM sends a 1-signal to input D6 of signal memory 36, whereupon the bank note is delivered by checking part 4. The first sensor 9 then detects the passage of the non-testable bank note and, as a result, sends a 1 signal to the Control input t of the latch 36, so that this 1-signals via its outputs Q4 and Q6 to the input EIN and the Input OUT of the first switch 11 emits, which is now from the position shown in Figures 1 and 2 in the counterclockwise direction turns. As a result, the non-testable bank note arrives on the branch path 3d in the fourth stacking part 21.

If the banknotes fed to the checking part 4 can be checked and the bank notes preselected on the operating mode control part 8 Have a value, the values given by the test part 4 via the outputs JD1 to JD4 and indicating the note value are correct Data match the data indicating the preselected note value, which is received from the operating mode control section 4 via the outputs JD1 to JD4 are submitted. The outputs JD1 to JD4 of the test part 4 and the outputs JD1 to JD4 of the Operating mode control part 8 signals delivered to the exclusive OR gates 28a to 28d of the value control circuit 25. At the same time there is the test part 4 depending on whether the front or the back of the bank note has turned upwards, a 1-signal via its output OS or RS, so that in the value control circuit 25 the 1-signal is not emitted by the AND gate 31, but by the AND gate 30. This 1-signal becomes delivered to each of the AND gates 34 and 35, and the AND gate 34 or 35 delivered. For example, if the front of the The 1-signal becomes from the output OS of the test part 4 to the AND element 34 and from this output to the input D2 of the signal memory 36. if then the first sensor 9 detects a banknote, the signal is

store 36 from its output Q2 a 1-signal which causes that the first switch 11 is turned back clockwise into the position shown in FIGS. Consequently If the banknote travels straight on after passing the first switch 11 and does not get into the branch lane 3d. The bank note is then detected by the second sensor 10. As a result, the output Q2 of the latch 43 a 1 signal is sent to the OUT input of the second switch 12, so that the second switch 12 remains in the position shown in Figures 1 and 2 and that on the second control sensor 10 past, preselected correctly lying notes over the branch path 3a and the rotatable carrier 14 in the first Reach stacking part 17 and be stacked in this. In the first stack part 17 are therefore preselected correct ones Notes stacked until 100 banknotes are stacked, whereupon the stack of 100 banknotes is fed to the bundling part 18 and is bundled there.

If the checking part 4 is supplied with a preselected, upside-down bank note, the checking part 4 is over its Outputs JD1 to JD4 to the value control circuit 25 from the value of the checked bank note indicating data, which with the preselected Coincide with data indicating the note value output from the mode control part 8, and will simultaneously from the test part 4 via its output RS a 1-signal to the AND gate 35 and output from this to the input D3 of the signal memory 36. When the first sensor 9 is a bank note is detected, the latch 36 gives a 1 signal via its output Q3 to the input AUS of the first switch 11 and the input D3 of the signal memory 43 from. The one that passed the first sensor 9 The bank note therefore travels straight ahead to the second sensor 10, by which it is detected again. Consequently the signal memory 43 outputs a 1 signal via its output Q3 to the input IN of the second switch 12 and the input OUT of the third switch 13, whereupon the second switch 12 clockwise is rotated so that it is in the branch path 3a

is and the third switch 13 in its in Figures 1 and

2 remains. The at the second sensor 10

Banknote that has gone off therefore travels over the branch line 3b and 3b the rotatable carrier 15 in the second stacking part 19.

If the test part 4 has a damaged bank note

is supplied, enters the test part 4 via its output DM 1 signal to the NOT element 29 in the value control circuit 25 and don input D5 of signal memory 36. As a result, the value control circuit 25 does not emit a 1 signal. When the banknote is then detected by the first control sensor 9, 1 signals are sent to the input OUT of the first switch 11 and to the input D5 of the signal store 43 delivered. The one on the first The bank note that has passed Sonsor 9 therefore travels straight ahead. When the second sensor 10 then detects the bank note, the input of the second gate 12 is ON and the input is ON d «> r third switch 13 a 1 signal is applied, whereupon the second Woiche 12 and the third switch 13 have been rotated clockwise so that they protrude into the branch tracks 3a and 3b, respectively. Consequently the bank note that has migrated past the second sensor 10 is fed to the third stacking part 20 on the branch path 3c.

If a banknote is fed to the test part 4, d: .e does not have the preselected value, the test part transmits data via its outputs JD1 to JD4 that reflect the value of the Hand in banknote. These data do not agree with those given by the outputs JD1 to JD4 of the operating mode control section 8 Data indicating the selected stitching value. As a result, the AND gate 32 of the value control circuit 25 outputs the value control circuit 25 outputs a 1 signal to the input D4 of the signal memory 25. If then the first sensor 9 detects the non-preselected bank note, 1 signals are sent to the input OUT of the first switch 11 and to the

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Input D4 of the signal memory 43 is applied, so that the bank note that has passed the first sensor 9 travels straight on. When the bank note is then detected by the second sensor 10, the signal memory 4 3 outputs a 1-signal from its output QA to the input EIN of the second switch 12 and the input EIN of the third switch 13, so that the second switch 12 and the third switch 13 can also be rotated as if a damaged bank note had been fed to the test part 4. After passing the second sensor 10, the bank note is therefore fed to the third stacking part 20 via the branch path 3c.

The arithmetic part 23 receives from the output M1

of the operating mode control part 8 the 1 signals and from the outputs JD1 to JD4 of the operating mode control section 8 the preselected Data indicating the note value and determined by decoding the data output by the test part 4 and the first sensor 9 Data signals (1 signals or 0 signals) the total number and the Total value of the preselected, correct notes, the total number and the total value of the preselected, incorrect notes Grades and the total value of the selected grades. The data thus obtained are sent to an unillustrated display device supplied, which the total number and the total value of the preselected, correctly lying Ncten, also the Total number and total value of the preselected, wrongly positioned Displays grades and the total value of the selected grades. In the "sorting check" operating mode, approx whether the banknotes are sorted correctly. Then the preselected ones stacked in the second stacking part 19 are reversed lying notes are introduced into the receiving part 1 with the front facing upwards. If then the above-described The operation is repeated, these banknotes are stacked in the first stacking part 17 and then the bundling part 18 fed, in which they are bundled in bundles of 100 banknotes each

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will. Further, those stacked in the third stacking part 20 are stacked Banknotes consisting of unselected and damaged banknotes into unselected banknotes and damaged! nodes separated. Since the damaged banknotes are unsuitable for circulation, they are kept and sent to the central bank. Banknotes not selected are sorted in an additional operation.

Only the "condition check" mode will be explained. First, bank notes of different values are introduced into the bank note receiving part 1 and are switched to the mode control part 8 the "health check" mode selected. By operating the start switch, not shown, everyone will Part of the machine put into operation. The operating mode control section 8 now gives a 1 signal from its output M2 via the AND gate 38 to the AND gate 40 of the additional control circuit 37 from. In the "condition check" operating mode, the value control circuit gives 25 no 1-signal. As a result of the actuation of the start switch, those located in the bank note receiving part 1 are turned off Bank notes are fed individually one after the other to the test part 4, in which they are tested. Because of this exam there the test part as in the "sorting test" mode described above via its outputs JD1 to JD4, OS, RS and DM 1 signals or 0 signals.

When a non-testable bank note is fed to the test part 4, it gives as in the case of the one described above "Sorting test" mode of operation via its output IM sends a 1-signal to the input D6 of the latch 36, so that the from the Test part 4 issued bank note is stored in the fourth stack part 21.

When a damaged bank note is fed to the checking part 4, it gives a 1 signal via its output DM the NOT member 39 of the state control circuit 37 and to the

Input D5 of the signal memory 36 from. As a result, although the test part 4 outputs data via its outputs JD1 to JD4, the indicate the value of the banknote, but gives the status control circuit 37 no 1-signal. Due to the output of the 1 signal The damaged bank note delivered by the checking part 4 is therefore sent to the input D5 of the signal memory 36 as in the case of the preceding one “Sorting check” mode of operation is stored in the third stack part 20.

When a faultless bank note has been fed to the checking part 4, the checking part is via its outputs JD1 to JD4 to the OR gate 41 in the state control circuit 37 from data indicating the value of the bank note. In this case is from the output OS or RS of the test part 4 also 1 signal issued, but this 1 signal not evaluated. The state control circuit 37 now outputs a 1 signal to the input D1 of the signal memory 36 because the test part 4 is data has given, which indicate the value of the banknote. If the first sensor 9 then detects the faultless bank note, the signal memory is 36 sends a 1-signal to the input via its output Q1 OUT of the first switch 11 and to the input D1 of the signal memory 43 from. As a result, the switch 11 returns to its position shown in Figures 1 and 2 and wanders the bank note that has passed the first sensor 9 straight on, whereupon it is detected by the second sensor 10. The signal memory 43 then transfers from its output Q1 the OR gates 44 and 45 have a 1 signal at the input IN of the second switch 12 and to the input AUS of the third switch 13 away. As a result, the bank notes that have passed the second sensor 10 are stacked in the second stack: 1 19.

The computing part 23 decodes based on the Output M2 of the operating mode control section 8 incoming 1 signals

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those emitted by the test part 4 and the first sensor 9 Data and thereby determines the total number and total value of the sound banknotes or the damaged banknotes and the total number and total value of the sound and damaged banknotes. This data becomes one not shown Visual display device supplied and displayed by this.

A check and classification can therefore be carried out in the "status check" operating mode. Furthermore, the second stack part 19 stacked, faultless banknotes in a subsequent operation in groups of banknotes one value each, and the banknotes stacked in the third stacking part are treated in the same way as in the operating mode "Sorting Check". In the "condition check" operating mode, faultless and damaged bank notes are also identified separated from each other.

The "status and sorting test" mode will now be described. First of all, banknotes become different Kinds introduced into the cream part 1 and is in the mode control part 8 the "Status and sorting test" mode selected. Then the start switch is pressed, like this that every part of the machine is brought into its operating condition. The operating mode control section 8 now gives its output M3 sends a 1 signal via the OR element 26 and the AND element 27 to the AND elements 30 and 31 of the value control circuit 25. Furthermore, the operating mode control section 8 gives signals indicating the preselected note value via its outputs JD1 to JD4 the exclusive-OR gates 28a to 28d of the value control circuit 25 from. As a result, the bills loaded into the bill receiving part 1 become similar to the above mode "Sorting test" stacked in the corresponding stacking parts 17 and 19 to 21. That is, the selected one, correctly

3201356

Notes lying in the first stack part 17, preselected, wrong Notes lying in the second stacking part 19, unselected and damaged notes in the third stacking part 20 and uncheckable banknotes are stacked in the fourth stacking part 21 will.

The computing part 23 decodes on the basis of the output from the operating mode control part 8 via its output M3 1 signals and the 1 signals emitted by the operating mode control section 8 via its outputs JD1 to JD4 are those of the test part 4 and the first sensor 9 emitted 1-signals and thereby determines the total number and the total value of the preselected, correct notes, the preselected, wrong lying notes, the unselected and damaged notes, as well as the total number and total value of all of these Banknotes. The data determined in this way are fed to a visual display device and displayed by it. In the operating mode The bank notes are therefore checked and classified "status and sorting check".

In this embodiment, in which the first Signal memory 36 and the second signal generator 43 are provided, the signal memory 36 stores the fact that the first Sensor 9 has detected the bank note issued by the test part 4. Therefore, the test part 4 can already deliver the next banknote, before the second sensor 10 has detected the previous bank note. When the time from detecting the output from the test part 4 Banknote is denoted by T1 by the first sensor 9 until this banknote is detected by the second sensor 10, can the test part 4 the banknotes in intervalers. Hand in T1. The time T1 is much shorter than the time T2 before. donating everyone Bank note through the checking part 4 until this bank note is detected by the second sensor 10. Therefore, at the bank note receiving part 1 introduced banknotes can be divided quickly.

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Claims (2)

3201 SoG PATENT CLAIMS Machine for sorting banknotes, characterized by: A test part arranged on a banknote path for testing the banknotes and for delivering the Test result specified signals, an operating mode control section on which several operating modes can be selected and the control signals which indicate the selected operating mode, and a distribution control part for controlling switches for the purpose of distributing the banknotes on the basis of the Operating mode-controlled! 1 control signals issued and the signals emitted by the test part. 2. Machine according to claim 1, characterized in that the type of banknotes on the mode control part is preselectable.