KR20120103516A - System for counting bills - Google Patents

Abstract

PURPOSE: A bill counting system is provided to effectively manage bills by preventing various pollution materials and dust generated from a bill counter. CONSTITUTION: A laser counting unit(100) counts inserted bills. A forgery sensing unit(200) detects forgeries from the counted bills. A heterogeneous bill sensing unit(300) determines heterogeneous bills from the detected forgeries. An automatic binding apparatus(400) binds the determined bills as predetermined amounts. A server stores information for various original bills. [Reference numerals] (100) Laser counting unit; (200) Forgery sensing unit; (300) Heterogeneous bill sensing unit; (400) Automatic binding apparatus; (AA) Drawing 2(this invention); (BB) Bill insertion; (CC) Bound bill discharging; (DD) (characteristic) each paper note : wireless or wired connection

Description

Billing system {system for counting bills}

The present invention relates to a banknote counting system, and more particularly, to provide accurate banknote counting by providing a laser counting device, and to prevent dust generated during banknote counting. Afterwards, it is easy to automatically manage the bills by automatically bundling the bills, and equipped with a printing means to display the bank notes or the bundle amount of bank notes on one side of the bill bundle band to facilitate bill management, wireless or wired The present invention relates to an innovative banknote counting system capable of efficiently managing counterfeiting and banknote counting of bills that are counted by providing a connected counterfeit detector and a counterfeit species detector.

Banknote counter according to the prior art as shown in Figure 1 is a hexahedron-shaped body (10) constituting the entire outside of the counter, and the banknotes put and inserted into the upper end of the upper surface of the body 10 to count A bill-shaped banknote input and counting unit 20 for counting the number, a billing unit 30 for displaying the amount of bills counted below the banknote input and counting unit 20, and the display unit 30 of The lower part is formed with a discharge portion 40 for discharging the counted bill to the outside.

Problems according to the prior art configured as described above are as follows.

First, since the banknote counting according to the prior art is made mechanically, there is a problem that the dust and dirt attached to the banknote may fall off due to vibration and contaminate the surroundings while counting while hitting the side of the banknote with the blade. Bills contain a large number of bacteria and contaminants, which seriously threaten the health of bill users. Employees working around banks or banks equipped with banknote counters are exposed to noise from mechanical counting and dust and bacteria from them. In order to prevent this, a cover surrounding the outside of the body 10 is installed and used, but the situation is ineffective.

Secondly, after counting the bills, there is no separate bundled device, so that the user bundles the bills manually counted, thereby reducing the work efficiency. And, since the bundle of banknotes currently in use is bundled only once in the width direction of the banknotes, a predetermined amount of money can be subtracted from the banknotes bundled by a third party, and after counting once, the bundled banknotes must be counted and bundled again. There is a problem, there are many problems in managing the bill.

Third, after counting and bundling banknotes, there is no way to count the amount of banknotes and banknotes and record them on one side of the band where the banks and counters, the person in charge, and the date of the final banking were finally managed. There are many problems in managing it efficiently.

Fourthly, the conventional banknote counter has many problems in detecting counterfeit and two-species. That is, the counterfeiting and heterogeneous species detection method according to the conventional method is not only limited in the type of money, but also has a problem such as repurchasing a separate system when the type of money is changed. And although there are many kinds of currencies around the world, there is a problem in that it is impossible to immediately detect counterfeit and heterogeneous species to fit each kind of currency.

Due to the above problems, in the bill counter industry, it is possible to manage the banknotes in a restraint manner, and research and development on a new bill counter without accurate counting and pollutant generation are being made, but there is no clear achievement.

Accordingly, a first object of the present invention is to provide a banknote counting system capable of accurate banknote counting by providing a laser counting device.

A second object of the present invention is to provide a bill counting system that can prevent the dust generated during bill counting by providing a laser counting device, thereby effectively preventing environmental pollution and hygiene of the user.

It is a third object of the present invention to provide a banknote counting system which is provided with an automatic banknote bundle device and automatically bundles banknotes after counting to systematically manage banknotes.

It is a fourth object of the present invention to provide a banknote counting system that can be provided with a separate printing means to display bank notes or bundle amounts on one side on one side of a banknote bundle strip to facilitate banknote management.

The fifth object of the present invention is to provide a counterfeit detection unit and a two-species species detecting unit connected wirelessly or wired to efficiently manage the counterfeiting and two-species counting of bills counted, and to easily and accurately change a number of different bills in a separate device. It is to provide a bill counting system that can detect whether the counterfeit and two different species.

In order to achieve the above object, the banknote counting system according to the present invention comprises: a laser counting apparatus 100 using a predetermined beam for counting the banknote inserted when the banknote to be counted is inputted;

Counterfeit detection unit 200 for detecting whether or not counterfeit bills counted by the laser counting device (100);

A heterogeneous species detecting unit 300 for discriminating the heterogeneous species among the bills completed by the counterfeit detecting unit 200;

An automatic bundle device 400 for bundling banknotes by a predetermined amount after detecting two kinds of papers from the two kinds of paper detecting unit 300;

The server is installed at a predetermined location of the central bank or the bank, and is connected to the counterfeit detection unit 200 and the heterogeneous species detection unit 300 by wire or wirelessly, and the server stores information on various original banknotes therein. 500.

The laser counting device 100 includes a bill input unit 110 for inserting a bill, a laser count unit 120 for counting the inserted bills, and a laser beam provided at one side of the left and right sides of the laser counting unit 120. A light emitting unit 130 for emitting light, a light receiving unit 140 provided on one side of the left and right sides of the laser counting unit 120, and for receiving a laser beam emitted from the light emitting unit 130, and the laser counting unit. It is connected to the unit 120, it is composed of a calculation unit 150 for calculating the bill counted by the laser counting unit (120).

The light emitting unit 130 includes a horizontal light emitting element 131 including a plurality of laser light emitting elements, and the light receiving unit 140 includes a horizontal light receiving element 141 including a plurality of light receiving elements. do.

The present invention provides an improved banknote counting system, which enables accurate banknote counting, prevents dust and various contaminants generated during banknote counting, and effectively cleans the surrounding environment in which banks and counters are installed and user's hygiene. Can be prevented, and the bills can be automatically bundled after the counting to manage the bills systematically.

And, on one side of the banknote bundle strip to display the management bank branch or the bundle amount on one side to facilitate banknote management, and provides a counterfeit detection unit and a two-species detection unit connected by wireless or wired to count the bills Effectively manage whether the counterfeit and two-species species, there is an effect that can detect whether the counterfeit and two-species species more easily and accurately without changing a separate device.

1 is a perspective view of a banknote counter according to the prior art.
2 is a block diagram showing the overall configuration of a banknote counting system according to a first embodiment of the present invention.
Fig. 3 is a block diagram showing the overall configuration of the laser counting device of the banknote counter system according to the first embodiment of the present invention.
4 is a perspective view for explaining the basic principle of the laser counting device of the banknote counter system according to the first embodiment of the present invention.
5 is a table for explaining in detail the counting method by the laser counting apparatus of the banknote counter system according to the first embodiment of the present invention.
FIG. 6 is a block diagram illustrating in detail a counterfeit detection unit and a heterologous species detection unit of the banknote counter system according to the first embodiment of the present invention.
Fig. 7 is a schematic plan view showing an automatic bundle device of a banknote counter system according to a first embodiment of the present invention.
Fig. 8 is a sectional view of the automatic bundling device viewed from the front in order to explain the vertical bundling function of the banknote counter system according to the first embodiment of the present invention.
Fig. 9 is a diagram showing a process for joining the bundle strips in the automatic bundle device of the banknote counter system according to the first embodiment of the present invention.
Fig. 10 is a perspective view showing a bundle of banknotes after horizontal and vertical bundles using a bundle of banknotes finally counted by the banknote counter system according to the first embodiment of the present invention.
Fig. 11 is a schematic diagram showing the banknote counter system according to the second embodiment of the present invention, in which the banknote weight sensing unit is further included in place of the laser counting device.
Fig. 12 is a schematic plan view showing the banknote weight sensing unit of the banknote counter system according to the second embodiment of the present invention.
Fig. 13 is a schematic perspective view showing the banknote weight sensing unit of the banknote counter system according to the second embodiment of the present invention.

2 is a block diagram showing the overall configuration of a banknote counting system according to a first embodiment of the present invention. Fig. 3 is a block diagram showing the overall configuration of the laser counting device of the banknote counter system according to the first embodiment of the present invention. 4 is a perspective view for explaining the basic principle of the laser counting device of the banknote counter system according to the first embodiment of the present invention. 5 is a table for explaining in detail the counting method by the laser counting apparatus of the banknote counter system according to the first embodiment of the present invention. FIG. 6 is a block diagram illustrating in detail a counterfeit detection unit and a heterologous species detection unit of the banknote counter system according to the first embodiment of the present invention. Fig. 7 is a schematic plan view showing an automatic bundle device of a banknote counter system according to a first embodiment of the present invention. Fig. 8 is a sectional view of the automatic bundling device viewed from the front in order to explain the vertical bundling function of the banknote counter system according to the first embodiment of the present invention. Fig. 9 is a diagram showing a process for joining the bundle strips in the automatic bundle device of the banknote counter system according to the first embodiment of the present invention. Fig. 10 is a perspective view showing the bundle of banknotes after the horizontal and vertical bundles of the predetermined amount of banknotes finally counted by the banknote counter system according to the first embodiment of the present invention, using a bundle band.

Referring to the accompanying drawings, the configuration of the banknote counting system according to a first embodiment of the present invention in detail as follows.

Before describing the configuration of the banknote counting system in detail, the term "banknote" in the present invention and claims means a countable currency made of paper or similar material as a form of money, and "counterfeit" means normal It means all kinds of bills manufactured for bad purposes, not bills. "Ikjong Jong" means a dollar bill mixed with a dollar bill or a dollar bill mixed with a dollar bill. "Abnormal banknotes" refer to banknotes in which a large amount of contaminants are attached to the banknotes, when a part of the banknotes is damaged, or when a part of the banknotes is folded, so that normal counting is impossible.

First, as shown in Figure 2, the banknote counting system according to the present invention, when the bill to be counted, the laser counting device 100 for counting the inserted bills, and the bill counted by the laser counting device 100 Counterfeit detector 200 for detecting whether or not the counterfeit, heterogeneous species detection unit 300 for determining the heterogeneous species from the bill completed by the counterfeit detection unit 200, and the heterogeneous species detection unit 300 After detecting the two kinds of paper from the, it is composed of an automatic bundle device 400 for tying the bill by a predetermined amount of money.

Here, the laser counting device 100 is a device for counting banknotes using a predetermined light beam, preferably a laser beam, unlike the method of counting by a sheet counting method using a conventional blade.

As shown in FIG. 3, the laser counting device 100 includes a bill input unit 110 for inserting a bill, a laser count unit 120 for counting the inserted bills, and the laser count unit 120. The light emitting unit 130 for emitting a laser beam provided on one side of the left and right of the, and the light receiving unit for receiving a laser beam emitted from the light emitting unit 130 is provided on one side of the left and right sides of the laser counting unit 120 And a calculation unit 150 connected to the laser counting unit 120 to calculate a bill counted by the laser counting unit 120.

The light emitting unit 130 includes a horizontal light emitting element 131 including a plurality of laser light emitting elements, and the light receiving unit 140 includes a horizontal light receiving element 141 including a plurality of light receiving elements.

Figure 6 is a block diagram for explaining in detail the counterfeit detection unit and two different species detection unit of the banknote counter system according to the present invention.

As shown here, the counterfeit detection unit 200 for detecting the counterfeit of bills counted from the laser counting device 100, a cross-country species detecting unit 300 for detecting whether the bill contains two different species, and It is connected to the counterfeit detection unit 200 and the heterogeneous species detection unit 300 by wire or wirelessly, and stores the original information and the heterogeneous species information of various bills in a database, and is installed in a bank head office or a central bank or a bank branch. It consists of 500.

Fig. 7 is a schematic plan view showing an automatic bundle device of a banknote counter system according to the present invention. 8 is a sectional front view of the automatic bundling device for explaining the vertical bundling function of the banknote counter system according to the present invention. Fig. 9 is a view showing a process for joining the bundle strips in the automatic bundle device of the banknote counter system according to the present invention. Fig. 10 is a perspective view showing a bundle of banknotes after being bundled horizontally and vertically using a bundle of bands of a predetermined amount of bills finally counted by the banknote counter system according to the present invention.

 As shown in the drawing, on one side of the automatic bundle device 400, a roll case 410 for storing the bundle strip 412 for binding the bills in the form of a band roll 411, and one side of the roll case 410 It is composed of a bundle body 420 of a rectangular shape as a whole.

One side of the upper end of the bundle body 400 is an insertion groove 421 for inserting the banknote conveyed from the heterogeneous species sensing unit 300, and in order to align the inserted banknote in the longitudinal direction in the lower portion of the insertion groove 421 The horizontal banknote alignment groove 422 formed in a size similar to the banknote, and the lower side of the horizontal banknote alignment groove 422 is formed with a discharge groove 423 of the top of the square groove shape open for discharging the bundled banknotes outside have.

And one side of the discharge groove 423 is separately configured a printing device 600 for printing a variety of information about the bills bundled on one side of the bundled bundle 412. A detailed configuration of the printing apparatus 600 will be described later.

The bundle strip 412 supplied from the strip roll 411 is generally manufactured in a form similar to that used to bundle banknotes. However, unlike the conventional bundle strip, the bundle strip 412 according to the present invention, when two sheets are bonded to each other when a predetermined heat and pressure are applied, the two bundle strips 412 in contact with each other are partially melted by heat. It is made of a material that is fixed to each other. To this end, it is generally desirable to use commercially available thermocompression bands.

The bundle strip 412 has a predetermined width, the width of which is determined to be at least 1/5 of the total width of the bill.

The roll case 410 and the bundle body 420 are provided with a plurality of rollers for supplying and guiding the banknote bundle 412.

The configuration of the rollers described above will be described in detail.

First, in the roller case 410, a pair of rollers R1-R2, R3-R4, and R5-R6 respectively provide predetermined intervals to supply and guide the bundle strip 412 at predetermined positions. It is installed. A roller R7-R8 is installed between the roll case 410 and the bundle body 420.

As shown in Fig. 7, the plurality of rollers R9 to R20 are sequentially provided at predetermined intervals.

Each of the rollers is driven or controlled so as to be driven in a predetermined direction by a driving device (not shown) installed below.

Among the above rollers, the rollers R9 and R18 are vertically moved downward according to a predetermined action so that the upper end thereof is completely hidden from the upper surface of the automatic binding device 400, and among the rollers R13, R14 is horizontal grooves (not shown) are formed in the lower portion so as to be able to move horizontally and horizontally, among the rollers R17 is configured to move vertically along the vertical grooves (not shown) installed in the lower portion.

Among the rollers, the rollers R10 and R17 have a predetermined heating wire therein and are configured to heat the heating wire therein by electricity supplied from the outside.

Hereinafter, the configuration of the printing apparatus 600 installed on one side of the discharge groove 440 will be described in detail.

The printing apparatus 600 may be any type of printer generally available on the market, but is preferably an inkjet printing type, the amount of money counted on one side of the bundle strip 412, the counting bank or branch, and the date thereof. It is an apparatus for recording information on the back and the like. That is, recording information on the amount of money counted from the laser counting device 100, for example, $ 1000, and the name of the bank Citibank New York branch counting the counting information, the date of counting it, the date of counting, etc. on one side of the bundle 412. It is for. Accordingly, anyone in the process of distributing the bills can see the corresponding information, and can efficiently manage the bills.

The banknote counting system according to the present invention having such a configuration will now be described in detail with reference to the accompanying drawings.

First, as shown in Figs. 2 and 3, when the bill to be counted is input through the laser counting device 100 banknote input unit 110, the inserted banknote is counted by the laser counting unit 120. 4 and 5 illustrate the operation of counting the inserted banknote through the laser counting unit 120. First, it is counted by the horizontal light emitting element 131 and the horizontal light receiving element 141 provided on both sides of the inserted banknote. Under the control of a predetermined control unit (not shown), a laser beam of a predetermined intensity emitted by the horizontal light emitting element 131 provided on the right side of banknotes arranged horizontally passes through a bundle of banknotes, and horizontal light receiving unit is installed on the left side of the banknote. Received primarily by element 141. At this time, the horizontal light emitting device 131 is located at the bottom. Secondary light emission is performed by the horizontal light emitting element 131 is raised by a predetermined position by a predetermined driving means (not shown) disposed below the second light emission, the secondary laser beam is also emitted at a predetermined intensity , Is received by the horizontal light receiving element 141 through the gap of the bill bundle. In the next step, the third light emission causes the horizontal light emitting device 131 to rise further by a predetermined position to emit light, and the third laser beam is also emitted at a predetermined intensity to pass through the gap between the bundles of bills. The horizontal light receiving element 141 is received. As such, the horizontal light emitting device 131 vertically moves upward and emits light with a predetermined intensity up to the Nth number of times, and the horizontal light receiving device 141 receives a predetermined amount of laser light, that is, a predetermined amount of laser light. Done.

The laser beam that emits and receives N times as described above is sequentially processed by the calculation unit 150 according to the method shown in FIG. 5. That is, the calculation unit 150 calculates the average value for the number of light emission, the average value for the light emission intensity, and the average value for the received light amount, respectively, and compares the corresponding light emission and light reception difference with previously stored data, and compares the bills. To count. In other words, it is assumed that the number of banknotes corresponding to the amount of received light is 100 according to light emission and light reception. At this time, if the amount of received light is as shown in Fig. 5, such as 100 sheets in M1, 99 sheets in M2, 100 sheets in M3, and the like, the number of bills corresponding to 5 times light emission and light reception is 100 times 4 times, and 99 respectively. If chapter 1 is 101 and chapter 1 is 1, the average is 100 pieces. When such light emission and light reception are repeated N times, that is, several thousand times or tens of thousands of times, the error in the counting of the banknotes converges to almost zero, so that the banknotes can be counted with high accuracy.

The bills counted as described above are detected in the counterfeit detector 200 and the counterfeit detector 300 located below the counterfeit and the counterfeit species. Here, the forgery detection unit 200 and heterogeneous species detection unit 300 is connected to the central bank or a predetermined bank or the server 500 installed in the branch by wire or wireless.

The server 500 stores information on the originals of the bills of different types and amounts of money that are commonly used in each country, the counterfeit detection unit 200 or heterogeneous species detection unit 300 is a self-detected various bill information Comparing with the information stored in the server 500, it is determined whether the counterfeit and heterogeneous species.

Banknotes passed through such a counterfeit or two kinds of bills are transferred to an automatic bundle device installed below.

First, the automatic bundle device 400 is divided into a horizontal bundle to turn the left and right of the banknotes in a state in which the banknotes are arranged horizontally, and a vertical bundle bundled in a vertically vertical state by rotating the horizontally bound banknotes 90 degrees again.

The reason for the horizontal bundle and the vertical bundle in this way is to prevent the sheet from being separated by a third party once the bill is counted and bound by the bill band 412. This is because if a bundle of bills is spilled by a third party one by one during transportation, not only the reliability due to the bill count is lowered, but also the object of the crime.

As in the present invention, when bundled two times in the longitudinal direction and the width direction of the banknote, the bundled banknote can not be separated by a third party, it is possible to prevent the banknote loss crime in advance.

The horizontal bundle and vertical bundle processes described above will be described in detail as follows.

First, 100 sheets consisting of exactly 100 bills of $ 100 bills are counted through the feeding groove 421 formed in the longitudinal direction on the upper side of the automatic bundle device 400. It is transferred to the banknote sorting groove 422 which was thrown in, and is arrange | positioned in the horizontal direction inside it. When the arrangement is completed as described above, according to the alignment completion signal by a sensor (not shown) installed in a predetermined portion of the bill alignment groove 422, a plurality of rollers installed in the roll case 410 and the bundle body 420 (R1 ~ R20) starts to operate. Thereby, the bundle strip | belt 412 wound around the strip | belt roll 411 is supplied, it progresses to roller R17-19 by the supply and guide | route by roller R1-R16, and one end thereof is roller R20. Turn around. When one end of the bundle strip 412 reaches the roller R20 as described above, while the unwinding of the band roll 411 is stopped, the rollers R13 and R14 are formed in the vertical grooves (not shown) formed at the bottom thereof. The rollers R18 are simultaneously recessed into vertical grooves (not shown) formed at the bottom thereof, so that the upper ends of the rollers R13, R14, and R18 do not protrude outward. In this state, the roller R17 is moved up to the position of the roller R9 while pushing the bundle 412 on its outer circumferential surface while vertically moving upward along a vertical groove (not shown) formed at the bottom thereof. When raised in this way, all four sides except for the cover portion of the bill bundle are shaped to be tightly surrounded by a predetermined elasticity by the bundle strip 412. At the same time, power is supplied to the heating wires provided inside the rollers R9 and R17, and the rollers R9 and R17 are heated for the heating wire. The bundle strips 412 inserted between the two by the heated rollers R9 and R17 are melted by heat to be bonded to each other, and at the same time, corresponding adhesive portions are vertically cut by a predetermined cutting action.

As described above, the longitudinal bundle action of the bundle of banknotes in which the horizontal direction of the bundle of banknotes is bundled is as follows.

As the horizontal bundle process is completed as described above, the left end of the lower guide 423 formed at the bottom of the banknote alignment groove 422 is vertically moved downwardly about the hinge 424 formed at the right end thereof. At the same time, the guide bar 423 inserted to be horizontally movable between the rollers R13 and R14 is moved to the left in the upright state. In this way, the bundle of bills transferred to the left centered on the drawing is bundled by the same process as the horizontal bundle.

Fig. 10 is a perspective view showing a bundle of banknotes after being bundled horizontally and vertically using a bundle of bands of a predetermined amount of bills finally counted by the banknote counter system according to the present invention.

As shown in this, since the bundle of banknotes bundled in the horizontal and vertical directions according to the present invention cannot be separated from the outside by the third party, crime can be prevented in advance.

And, as shown in Figure 10, since the information on the various banks, coefficients and amounts are printed on one side of the bundle strip, it is possible to efficiently manage the bill.

11 and 12, the configuration of a banknote counting system according to a second embodiment of the present invention will be described in detail.

As shown in Fig. 11, in the banknote counting system according to the second embodiment of the present invention, in place of the laser counting apparatus 100 of the first embodiment, a banknote weight sensing unit capable of counting banknotes using the weight of banknotes 1000 is installed.

As shown in FIGS. 12 and 13, the banknote weight sensing unit 1000 is configured in the form of a hollow box having a structure in which an upper portion is opened similarly to a banknote ingot, and a banknote into which a banknote to be counted is inserted. The input tray 1100 and the weight scale 1200, which is installed on the lower surface of the banknote input box 1100, is connected to the weight scale 1200 and wired or wireless, the weight is weighed Computation unit composed of CPU (Central Ptocessing Unit), etc., which reads the weight of the bill in advance from the ROM (Read Only Memory) (1400) in which the information on the weight of the bill is stored and compares it with the specified weight. 1300 and the calculator 1300, which is connected to the calculator 1300 by wire or wireless, and includes a screen unit 1500 for displaying the number of bills calculated by the calculator 1300. The ROM 1400 is limited thereto. Is not a predetermined e For example, the storage medium may include any type of storage device capable of storing the data, for example, an HDD, USB, or a network medium connected to a server through a network, for example, the ROM 1400 may include a bill counting system of the present invention and a wired or wireless connection. It may also be a storage medium installed in a predetermined server connected to the server.

The present invention provides an improved banknote counting system, which enables accurate banknote counting, prevents dust and various contaminants generated during banknote counting, and effectively cleans the surrounding environment in which banks and counters are installed and user's hygiene. It can be prevented, and the banknotes can be automatically tied up after the counting to systematically manage the banknotes, it is an industrially useful invention. And, on one side of the banknote bundle strip to display the management bank branch or the bundle amount on one side to facilitate banknote management, and provides a counterfeit detection unit and a two-species detection unit connected by wireless or wired to count the bills It can effectively manage the counterfeit and two kinds of bills, and can detect the counterfeits and two kinds of bills more easily and accurately without changing the device. In addition, banknotes can be managed very efficiently, which is useful industrially.

100: laser counting device
200: forgery detection unit
300: heterogeneous detector
400: automatic binding device

Claims (8)

When the bill to be counted is put, the laser counting device 100 using a predetermined beam for counting the inserted bill;
Counterfeit detection unit 200 for detecting whether or not counterfeit bills counted by the laser counting device (100);
A heterogeneous species detecting unit 300 for discriminating the heterogeneous species among the bills completed by the counterfeit detecting unit 200;
An automatic bundle device 400 for bundling banknotes by a predetermined amount after detecting two kinds of papers from the two kinds of paper detecting unit 300;
The server is installed at a predetermined location of the central bank or the bank, and is connected to the counterfeit detection unit 200 and the heterogeneous species detection unit 300 by wire or wirelessly, and the server stores information on various original banknotes therein. Banknote counting system, characterized in that it comprises a (500).
According to claim 1, wherein the laser counting device 100 is a bill input unit 110 for inserting the bill, the laser counting unit 120 for counting the inserted bills, and the left and right sides of the laser counting unit 120 The light emitting unit 130 for emitting a laser beam installed on one side, and the light receiving unit 140 is installed on one side of the left and right sides of the laser counting unit 120, the light receiving unit 140 for receiving the laser beam emitted from the light emitting unit 130 And a calculation unit (150) connected to the laser counting unit (120) for calculating the bill counted by the laser counting unit (120).
The light emitting unit 130 includes a horizontal light emitting element 131 including a plurality of laser light emitting elements, and the light receiving unit 140 includes a horizontal light receiving element 141 including a plurality of light receiving elements. Banknote counting system characterized in that it comprises.
The horizontal light emitting device 131 ascends along a side surface of the bundle of bills and emits a predetermined number of beams, and thus the horizontal light receiving device 141 is the horizontal light emitting device 131. The bill counting system, characterized in that for receiving together the divergent beam while rising together in conjunction with.
The method of claim 1, wherein the automatic bundle device 400 is provided with a roll case 410 for storing the bundle strip 412 in the form of a roll and a bundle body 420 for tying the bills in the horizontal and vertical directions. Banknote counting system.
According to claim 1, wherein the bundle body 420 is formed in the upper end of the banknote insertion groove 421 for inserting the banknote, and the banknote alignment groove 422 formed in a rectangular banknote shape as a whole in the banknote insertion groove 421 And a discharge groove 440 for discharging the bundled bank notes to the outside, and printing predetermined information on one side of the bundled strip 412 of the bundled bank notes. Banknote counting system characterized by including a printing device (600) for.
When the banknote to be counted is input, in order to count the inserted banknote, the weight of the banknote is measured using a predetermined scale 1200 mounted on the anatomical surface thereof, and stored in advance in the ROM (Read Only Memory) 1400. A bill weight detection unit 1000 for calculating the number of bills by the calculation unit 1300 with the weight of the unit bill, and the measured bill weight;
Counterfeit detection unit 200 for detecting whether or not counterfeit bills counted by the laser counting device (100);
A heterogeneous species detecting unit 300 for discriminating the heterogeneous species among the bills completed by the counterfeit detecting unit 200;
An automatic bundle device 400 for bundling banknotes by a predetermined amount after detecting two kinds of papers from the two kinds of paper detecting unit 300;
The server is installed at a predetermined location of the central bank or the bank, and is connected to the counterfeit detection unit 200 and the heterogeneous species detection unit 300 by wire or wirelessly, and the server stores information on various original banknotes therein. Banknote counting system, characterized in that it comprises a (500).
8. The method of claim 7, wherein, er, the bill weight detection unit 1000 for calculating the number of bills is a predetermined hollow and a cube box for inserting bills (1100);
A weight scale 1200 installed at the bottom of the input box 1100 to detect the weight of the inserted banknote;
The bill weight according to the weight of the bill is measured by reading the bill weight specified by the weight scale 1200 from the ROM (Read Only Memory) 1400 which stores information on the weight of the bill. An operation unit 1300 for calculating the number of?
Banknote counting system, characterized in that it comprises a screen unit (1500) for displaying the result calculated by the calculating unit (1300).

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