The semi-continuous method of processing currency using separator cards

 

(57) Abstract:

The invention is intended to separate the bundles of bills in the batch of the banknotes fed into the processing machine. The technical result consists in providing a handle numerous packs of paper money, separate user-defined parameters. In the method of processing currency using a separator card, which facilitates continuous processing of individual packets of banknotes without having to stop between every two wads of banknotes. Used separation cards contain features that positively distinguish between separate packs of bills and communications data bill with each stack of bills and accompanying separator card when it is processed by the processing currency machine. 2 C. and 10 C.p. f-crystals, 5 Il.

The invention relates to the processing of large amounts of currency with the use of machines to handle the exchange.

Automated processing of large amounts of currency is a growing international industry, addressing many aspects of distribution, collection and accounting of paper currency. Processing exchange is a complex Saalih tasks for example, the separate collection of banknotes by the cashier or a Bank clerk, accounting for individual commercial deposits or credit accounts, Bank clerk, assimilation and delivery of separate deposits or accounts in the Central processing facility, processing and accounting for currency translation after admission to the processing facility and the processing of individual accounts using automated manufacturing machines. Each stage in this process can be automated, thereby eliminating the need of manual labor, which saves labor costs for processing currency and increases the security of the whole process. Security increases with the introduction of automated processes, reducing the opportunity for theft, accidental loss or misuse of cash, and increases the accuracy of the account.

Highly automated, high throughput processing system is important at many levels of distribution networks and collect currency. In the prior art there are several designs of high throughput processing machines that are used with various stakeholders, both national Central banks, independent perioa conveyor system, which moves the individual banknotes by the number of detectors. As an example, bill may be passed through a series of electrical converters, designed to measure the width, length and thickness of the banknote. The following set of sensors can be an optical sensor, registering color images of the banknote. The detectors can similarly be used to detect specific magnetic and other physical characteristics of the individual banknotes.

Usually high throughput processing currency machines extract the individual banknotes from the stack of currency by mechanical conveyor, passing them by several different detectors in order to facilitate the sorting of banknotes, and the data set of each banknote passes through the machine. For example, the processing currency machine can perform the simple task of processing a bundle of bills to ensure that they are all the same rank with the desired characteristics suitability with simultaneous counting bundles to confirm the previous accounting. You can also slightly more complex operations such as separation of bundles of banknotes for banknotes individual dignity with simultaneous counting money. In sosestausee machine for processing, which leads to the separation of banknotes of each of the dignity, the rejection of any bills that do not meet eligibility requirements, the definition of counterfeit banknotes and tracking of individual banknotes by their number.

Existing machines for processing large amounts of cash loaded one stack of bills identified one set of user parameters to perform the sorting process. For example, the stack of bills related to a specific commercial Deposit in the Bank, can be loaded at the beginning of the loop exchange. Then bill served in processing currency machine and sorted based on the needs of the customer. Then, the data obtained in the process of sorting, for example, the number of banknotes of each of the dignity that was discovered, and total deposits, compared with the same data defined for a packet of notes to the loop. However, there is a need for a method of processing currency, which would reduce labor costs associated with loading the processing currency machine, and improve the safety of this operation. Specifically, there is a need for a method that would allow to handle numerous packs bumazhnyiy to stop the car, to view the data collected for each individual account. This task should be solved by the present invention.

According to one aspect of the present invention proposes a method of semi-continuous processing of currency, and this currency has at least one advantage and confirming the authenticity of the attributes, using the processing currency machine, comprising the following steps:

(a) the Department, at least one packet of notes, at least one separator card, where this separation card is encoded with account information;

b) identifying this packet of notes the information encoded on the separation card;

(C) the filing of a bundle of Bank notes and separation cards in processing currency machine.

The method may further include the step:

d) processing the separation of the card and currency bills using processing steps that are common to both.

The method may further include the following steps:

e) authentication of each currency notes inside this packet of notes;

f) separating non-genuine banknotes;

(g) the Association of these non-genuine banknotes with a starting stack of bills and RA bills with the appropriate separator card as the last stage of processing.

Alternatively, step (f) is carried out by identification of non-genuine banknotes account information encoded on the stage (a).

The method may further include

(h) sorting the bills for the value of the number of slots in this machine;

i) sorting based on these notes in computer memory;

j) comparing this into account at the stage (i) with the account information encoded on the stage (a).

Convenient to step (a) includes separating at least one packet of notes dividing a card having a magnetic strip.

Alternative to step (a) includes separating at least one packet of notes separator card, which is applied to the number of bar codes.

Step (a) may further include separating at least one packet of notes separator card having at least one characteristic feature that allows manufacturing the currency of the machine to identify a separator card, when the step (C) is incorrect filing, which leads to the fact that at least one banknote separation masks card during the processing step (d). This characteristic may be a magnetic strip. Stoimosti this packet of notes and the source of this packet of notes. The method may further include

i) comparing the initial unit of account unit of account after processing.

Preferably step (a) includes placing the separation of the card as the card header.

Alternatively, step (a) includes placing a separator card as the card is to continue.

In yet another method according to the invention step (a) additionally includes a method of identifying the separation cards are used to delineate and track the stack of bills in the batch of the banknotes fed into the processing currency machine, and this method includes the following steps:

a) identification of account data for this packet of notes for separating the card before processing the packet of notes;

b) running a separation card via at least one detector that detects at least one characteristic of the card;

(C) the distinction between the separator card and bills on the basis of the detected characteristics.

Step (b) may include running a separation card via a detector that detects the magnetic characteristics of the card.

In quality the characteristics of the optical structure of the card.

In another exemplary embodiment of the invention, step (b) includes passing the separator card via a detector that detects characteristics of the physical size of the card.

In yet another example of performing step (b) includes passing the separator card via a detector that detects the color characteristics of the card.

Step (C) may, in addition, include the distinction between the separator card and bills, when dividing the masked card, banknote due to improper filing.

The invention also involves the separation of a card having two sides and is used to process the exchange, and this card contains:

sign barcode printed at least on one side; at least one magnetic strip applied on at least one side, so that the separation card can be identified during the processing of the exchange, when it is masked due to improper filing, at least one bill.

A preferred exemplary embodiment of this invention provides a semi-continuous method of processing currency using a unique construal the volume of the batch of bills. Thus, this invention attempts to create an improved method of processing currency using a high-speed and high-capacity processing currency machines, such as those currently manufactures and markets the company Currency Systems International from the city of Irving, Texas. At the current level of technology such processing currency machines are used for filing bills in large quantities. One stack of bills identified a specific set of user parameters laid in manufacturing currency machine manually and then processed and sorted the manufacturing currency machine. For example, one stack of bills can be a commercial Deposit day cash proceeds of one retail store, which was deposited in a local Bank store. One pack could also be identified for separate collection of cash receipts Bank employee per shift from one Bank after fees employee remitted to the Central Bank for processing. The data obtained from processing the currency of the machine from one packet of notes, then retrieved from the machine, and the next batch of bills placed in the car for the next run of the sort. Found on the avania with Deposit which, as it is believed, was made a separate retail store or related to the collection of individual Bank employee.

This invention seeks to eliminate the necessity of filing a separate parties packs of banknotes. In preferred examples of the present invention chased by a separate party bills can be consolidated into a much larger party with a user subsets, such as packs some notes in the above examples, separated by a dividing cards with special features. The result can be Packed in bundles of currency-specific accounts without having to put them in the foot, and make a much larger batch of bills to be processed. This step can be carried out even before the currency is delivered to the Central site processing. For example, the fees for the work shift individual Bank employee for one of the Bank branches can be placed in the stack as one party bills, and every account is made for the change of the employee, separated by a dividing cards. Each separator card can encode detailed information about the account in respect of a stack of bills with which it is associated, or providausea packet of notes. Now the entire party can be transferred to the Central Bank or at the site of treatment. When the currency is now in a large party, arrives at the site of treatment, the operator of the processing currency machine can load the whole lot into the processing currency machine in one step instead of separately download the account of each Bank employee. Assimilated data about each user of the subset can also be obtained continuously and compared with detailed account information encoded on the separation cards or identified for them without stopping the machine between each feed batch of bills. As a result, in the preferred exemplary embodiment of the present invention significantly increases both safety and labor savings for high throughput sorting currencies by eliminating some steps in the processing system of exchange.

A preferred exemplary embodiment of this invention includes the use of a release cards that operate on the currency of the machine can easily be distinguished from notes and quickly identify how specific a separator card associated with a particular stack of bills. Manufacturing VA is of clear divisions between separate accounts, when they are passed through the processing currency machine. If processing currency machine cannot identify the separation of the card as the separator between one stack of bills and other joint blending of notes between the two accounts will be fatal to the accuracy of the processing cycle. Similarly, can appear difficult problems into account when processing the currency of the machine mistakenly identifies the bill as a separator card. Another particularly difficult problem with quality control related to an improper filing of one or more banknotes simultaneously with the separation card that leads to the fact that the bill and the separator card are machine Packed in one pack. Notes this incorrectly given bundle can disguise separating the card from many detectors, which otherwise would know the card exchange. Therefore, in order to achieve a consistent distinction between the separator card and currency, the separator card in the preferred examples of this invention has unique characteristics, which allows to detect a separator card even when it is correctly put in place osobnosti to identify specific information about the account for each separator card; which is associated with the requirement of the above-described method, semi-continuous processing. When individual account information for one packet of notes can be identified for separating cards, or encoding a separator card of this information, or identifying the information to a unique identifier for each card (such as a unique sequence bar code), a separate packet of notes in the party supplied into the processing currency machine, can be monitored without the need to identify the data collected on each bundle to find packs a larger supply of party.

In a preferred example implementation of this invention uses a separator card with several unique characteristics. The two most important of these characteristics are magnetic strips and a means of identifying individual packages of bills for separating cards. This means of identification may include encoded magnetic stripes or bar codes. Other means of identification may include a specific sequence of optical images, a sequence of holes Il the s side of each card, or one of any other number of means to identify a particular card through a unique sequence of identifiable characteristics.

Magnetic strips, in addition to their use for encoding information about the account, allow manufacturing currency machine to identify a separator card, even if the separation card disguised incorrectly filed bill. This is because the magnetic signature of the strips can be read through the notes, masking all other physical characteristics of the card. Magnetic strips can optionally encode information about the account, or a specific magnetic signature can be written to loop exchange and authentication credentials for accompanying packet of notes. Similarly, this last feature of the magnetic strips can be executed using bar codes or one of the other means of identifying individual packages of bills for specific separation cards. For example, user data collected on the same stack of bills can be identified for a unique number of a bar code for a specific separation cards. Then this particular dividing kartio bills for processing in manufacturing currency machine. The separator card can be placed either above packet of notes as the card title or below the bundle of banknotes as a card-continuation, or either way. When the loop exchange is completed, operate the currency of the machine can, in turn, to identify a specific account information for a unique number of a bar code specific separation cards. This can be compared with the account information associated with the number of bar code to loop exchange.

Additional unique features of the separation of the cards used in the preferred exemplary embodiment of the present invention may include a separator card having a unique size or dimensions, the thickness and unique color or optical images. These additional features of the cards give redundant confirmation signs of separation of the card relative to the exchange. If processing currency machine has a configuration that allows you to discover several unique characteristics unique separating cards, the machine will be able to easily distinguish the separation of the card from any form of banknotes. In addition, the manufacturing currency machine can about what to give the message for each individual bill, correlated in accounting and other records that have been identified for dividing one card.

A preferred exemplary embodiment of this invention is a significant improvement over the prior art in the sense that it allows to increase the speed, accuracy, security, and improve the data management process at high throughput processing exchange.

Further objectives and advantages of this invention will become apparent from the following detailed description, which is given as an example, with reference to the accompanying drawings, in which:

Fig. 1 is a perspective view of the processing currency of the machine that is loaded bundle of notes and separation cards.

Fig. 2 is a perspective view of the packet of notes separated by a separator card.

Fig. 3A is a view of the front side of the sample separation cards.

Fig. 3b is a view of the back side of the approximate separation of the card.

Fig. 4 is a block diagram of a method of processing currency using separator cards;

Fig. 5 is a block diagram of the identification method for the separation of cards for processing currency machines.

In Fig. 2 shows a party of 12 bills that have multiple individual packages of banknotes. Shows party 12 notes consists of the first bundle 16 of banknotes of the second stack 20 banknotes and third packs of 24 notes. Each stack of bills accompanied by a dividing card 18, 22, 26. In this example, the complete separation of the cards 18, 22, 26 is shown as a card header, where the first separator card 18 is laid on top of the first pack of 16 bills and will identify the first bundle 16 of notes within the loop exchange. Similarly, the second separator card 22 is laid on top of the second stack 20 bills, and identifies a second stack of bills while loop bills. It is clear that in this invention is meant that the numerous packs of 16, 20, 24 bills, such as those described three can consistently meet with an education major who tives such as described in Fig. 2, the separator cards 18, 22, 26 can be used at the end of each packet of notes and will be referred to as card-sequels. In the third exemplary embodiment can be used as card-headers and cards continue to separate packs of 16, 20, 24 of the notes.

In Fig. 3A and 3b described exemplary separator card 18 according to this invention. In Fig. 3a shows a first side 28 of the separation card 18, while in Fig. 3b shows the second side 30 of the separation card. In the exemplary embodiment shown in Fig. 3a and 3b, the first side 28 of the superimposed first magnetic strip 32 and the second magnetic strip 34. On the second side 30 of the printed bar code 36. As will be described in more detail below, this exemplary embodiment allows accurate identification of the separator card 18 primarily by the discovery of two magnetic strips 32, 34, while the user data on a separate stack of bills can be identified by a specific number, bar code, encoded on the bar code 36 separation of the card 18.

Fig. 4 is a block diagram of a method of processing currency using separator cards. When using the same sample batch 12 copy the second stack 16, 20, 24 notes, first written for each account. These data 56, 58, 60 on the account may include a number of separate bills, the total value of banknotes and identity packet of notes for a commercial Deposit or work shift by a Bank employee. Then, the data 56, 58, 60 on the account associated with the separation card 18, 22, 26, which will be accompanied by a separate pack of 16, 20, 24 bills. These data account can be identified for dividing cards, determining the number of a bar code, unique to a particular separation card or encoded account information directly on the separator card. Mechanical combination separator cards 18, 22, 26 and stacks 16, 20, 24 notes form what appears as a single user subset 68, 70, 72. These accounts subset 68, 70, 72 can then be put into a batch of 12 notes. This party of 12 banknotes fed into the processing currency machine 10.

During the processing cycle of exchange of individual banknotes from each user of the subset of 68, 70, 72 are sorted in the sorting bins 82, 84, 86, 88, 90, 92. Typically, these sorting bins are used to collect banknotes of the same denomination. For example, the first sorting hopper 82 is assigned to the accumulation of banknotes $5,00. In Fig. 4 shows a separate hopper 94 to sorted (rejected) banknotes with the separation cards. The bunker 94 for analysis could be used to store any counterfeit currency detected during the sorting process the exchange. When folding the fake currency with the separation cards 18, 22, 26 can perform a quick scan to determine what one user subset 68, 70, 72 associated with counterfeit banknotes, which were found to follow a specific separation card.

Data about 96 account for each user of the subset accumulate in the course of the loop exchange. Then the data about 96 account can be compared with similar data 56, 58, 60 on the account that were originally collected for each individual packs of 16, 20, 24 bills. For example, the processing of the first user subset 68 operate the currency of the machine can collect information on the number of banknotes of each of the dignity and the total value of the bills associated with the first user a subset of 68. Data about 96 account, accumulated by the first user to the subset of 68, then can be compared with 56 data about the account associated with the first pack of 16 notes to the consolidation acetoglyceride cards used processing currency machines. The process shown in Fig. 5, begins with one user subset 68, 70, 72, which is likewise shown in Fig.4. These accounts subset 68, 70, 72 are placed with the formation of a party of 12 notes. Then a party of 12 bills are loaded into the processing currency 98 machine. Then the top element in the batch 12 of notes, whether a separator card 80 or 100 bill, is drawn into the conveyor, passing by several detectors.

The first detector shown in Fig. 5, this detector 102 of the magnetic field. This magnetic field detector may detect a unique magnetic stripe on the separator card 80 to help handle the currency of the machine to carry out section between the separator card 80 and 100 bills. This can be done even in case of improper feeding, resulting in bill 100 masks other physical signs of a separator card 80, since the magnetic field of the separator card 80 can be read through the masking bill 100. Operate the currency of the machine can be designed with the ability to read individual serial numbers on the bill, masking what she finds is ulo is the point, as well as information obtained by masking the bill for the entire journey past the detectors, allows you to correct an incorrect filing and to avoid joint account mixing subsets 68, 70, 72 within the loop exchange.

The following detector described in Fig. 5, this reader 104 barcode. This bar code reader identifies the specific number bar code for each individual read a separator card 80.

Then the number bar code is identified by processing the currency of the machine with bill 100, which follows a specific separator card 80. Separator card 80 or 100 bill then passes through one or more detectors for measuring the thickness and size of the object on the conveyor, as described in Fig. 5, by means of the detector 106 thickness and detector 108 sizes. This information can be further used in manufacturing currency machine in distinguishing the separator card 80 from 100 bills. The final detector shown in Fig. 5, this detector 110 of the optical patterns (figure). This detector 110 of the optical structure can likewise help in the process of conducting razlichiya.

It is clear that the order and type of detectors shown in Fig. 5 represent only one example of a preferred implementation of the described method. Used in this invention, the detectors can be positioned in many different sequences. In addition, other types of detectors can be used to register different characteristics of the Bank notes and separation cards.

After passing through the processing currency, car bills 100 are formed in the respective sorting bins 82, 84, 86, 88, 90, 92, as part of the sorting process exchange. Similarly, the separator card is sent to the sorting hopper 94 with the separation cards.

Data 96 bill collected the manufacturing currency machine for each user of the subset of 68, 70, 72, can be compared with similar information about the account associated with a user subset 68, 70, 72, to the consolidation of these accounts in a batch of 12 notes. As shown in Fig.5, data 96 bill collected during the processing cycle exchange, assimilate the information supplied by different detectors 102, 104, 106, 108, 110.

In the preferred exemplary embodiment of the invention shown in Fig. 5, can be further Oberwesel user subset 68, 70, 72 are composed of bundles of notes separated by a header cards, the first object that is processed through the sequence shown in Fig. 5, must be a separator card 80. Following the object to be processed must be 100 bill. If a separator card 80 is detected immediately after treatment the other separator card 80, this event will be defined as an error in the education sequence, which can be tracked back to improper installation user subsets 68, 70, 72. Similarly, errors in the education sequence can be detected when the separator card 80 is a card-continuation. However, the most accurate way to detect errors in the sequence occurs when in the preferred exemplary embodiment is used as the card title or card-continue with each user a subset of 68, 70, 72. Use a header cards, and cards-sequels requires in sequence to the first separator card 80 to be processed for the user subset 68, 70, 72, was the card header. Following the object to be processed must be 100 bill. Following a detected separator card 80 should be khartchenko subset. Any deviation from the above sequence again will indicate an error in the sequence, which can be attributed to incorrect stacking a separator card 80 and 100 bills in accounting subsets 68, 70, 72.

You need to understand that professionals may make various changes in the details, materials and processes that have been described and illustrated to explain the nature of the invention, within the principle and scope of the invention as expressed in the following claims.

1. Method semi-continuous processing exchange with at least some attributes of dignity and authentication, using the processing currency machine, comprising the following steps: a) separating at least one packet of notes, at least one separator card, encoded information about the account, before processing the packet of notes; (b) identifying this packet of notes the information encoded on the separator card; (C) the filing of a bundle of Bank notes and separation cards in processing currency machine and d) processing the separation of cards and bills using these steps.

2. The method according to p. 1, wherein step (a), additionally, on the characteristic, allowing manufacturing currency machine to identify a separator card, when the step (C) is incorrect filing, resulting in at least one banknote separation masks card during step (d) processing.

3. The method according to p. 2, wherein the specified characteristic is a magnetic strip.

4. The method according to p. 1, wherein step (a), in addition, involves placing a separator card as the final card.

5. The method according to p. 1, wherein step (a), in addition, involves placing one of the dividing cards as card title and placing one of these cards as the final card.

6. The method according to p. 1, characterized in that it further includes the following steps: e) authentication of each bill within this packet of notes; (f) the Department of non-genuine banknotes; and (g) the Association of non-genuine banknotes with a starting stack of bills and dividing by the card.

7. The method according to p. 6, wherein step (f) is carried out by laying a non-genuine banknotes with the appropriate separator card as the last stage of processing.

8. JV the couple, encoded stage (a).

9. The method of identifying the separation cards are used to delineate and track the stack of bills in the batch of the banknotes fed into the processing currency machine, comprising the following stages: a) identification of account data for the packet of notes on the separation card via at least one detector that detects at least one characteristic of the card; and (C) the distinction between the separator card and bills on the basis of the detected characteristics.

10. The method according to p. 9, wherein the specified characteristic of the separation card is characteristic of the physical size of the card.

11. The method according to p. 9, wherein the specified characteristic of the separation card is its color characteristics.

12. The method according to p. 9, wherein step (C) is carried out, when the separating card masked due to improper filing of the bill.

 

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FIELD: engineering of banknote processing devices.

SUBSTANCE: in accordance to invention, device contains intelligent system of banknote container with a card, carrying a code for identification of the banknote processing device. Banknote information includes data of banknotes, received in storage chamber of stacking device, and is transferred from control circuit to intelligent storage. Intelligent storage maintains connection with control circuit of authentication device for receiving code information and banknote information from storage device and storing this information in intelligent storage. Code information identifies banknote processing device, from which stacking means is removed, and banknote information allows comparison of a total of collected banknotes in a set of stackers to a total of banknotes recognized as authentic and stored in stacking device.

EFFECT: comparison of a total of collected banknotes in multiple stacking devices to a total of banknotes, recognized as authentic and preserved in stacking means, by non-contact connection to information collection device.

2 cl, 20 dwg

FIELD: automated methods for processing large amounts of banknotes, possible use in machines for sorting banknotes.

SUBSTANCE: in accordance to the method, banknote stacks and information cards are fed into banknote sorting machine, cards and banknotes are identified, resulting images are processed by means of pre-installed computer program, while setting of operation modes of sorting machine and input of additional data for analysis is performed automatically in real time by reading information from cards accompanying the banknotes by means of scanning devices, while information on the card is provided in form of printed form or handwritten text, resulting images of banknotes and cards are processed by means of program for optical recognition of symbols.

EFFECT: provision of automated method for setting operation modes of sorting machine and for inputting information into machine, and also reduction of stress on operator during operation due to abolished manual input of data and switching of modes by operator.

FIELD: banking machines for dispensing sheets of financial documents to users of machines.

SUBSTANCE: machine includes user interface which contains device for reading credit cards, aperture of receipt printer, aperture for dispensing cash and aperture for receiving deposits, catching element is meant for separating one banknote from a stack of banknotes, inserted into machine, non-contact and contact rollers of sheet-dividing element ensure movement of mainly one banknote. Sheet-dividing elements may be driven to move jointly caught banknotes relatively to banknote which interacts with sheet-separating element, to change position of banknotes and to simplify separation of banknote for future catching attempts.

EFFECT: possible processing of financial document sheets in banking machine, increased protection.

6 cl, 30 dwg

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