KR20120069841A - A banknote discrimination apparatus using contact image sensor module - Google Patents

Abstract

PURPOSE: A banknote discrimination apparatus using a contact image sensor module is provided to simultaneously sense reflected and transmitted lights of banknotes using a single light-receiving sensor. CONSTITUTION: A banknote discrimination apparatus comprises a first and a second contact image sensor module(210,220), a database(250) storing reference values for determining the kind and authenticity of banknotes, a central processor(260) which outputs classification values of banknotes by combining information and determines the kind and authenticity of the banknote, a memory(240) storing the values output from the central processor, and a display part(230) outputting the determination results of the central processor.

Description

Banknote discrimination apparatus using contact image sensor module

The present invention relates to a banknote identification device using a contact image sensor module, and more particularly, a pair of first light emitting devices are provided on both left and right sides of a light receiving sensor, and a second light emitting device is disposed at a position opposite to the light receiving sensor. The device is provided, the contact image sensor module for receiving the light emitted from the pair of the first light emitting device through the light receiving sensor reflected from the bill surface and the light emitted from the second light emitting device transmitted through the bill, The first contact image sensor module and the second contact image sensor module each of which are configured as the contact image sensor module having the above-described configuration are disposed in series on the transport path for transporting the bills, respectively, the first contact image sensor module and the second contact. By placing the image sensor module in an upside down position, the front and back sides of bills can be quickly sensed. By providing a contact image sensor module that can simultaneously sense reflected and transmitted light of banknotes using only an optical sensor, the space utilization of the transfer path is high, and the contact image sensor module can quickly and accurately carry out the determination of winding and authenticity of banknotes. It relates to a banknote identification device using.

In general, a variety of advanced technologies for preventing forgery and alteration are applied to securities such as banknotes or checks, and thus unique geological characteristics, background colors, surface characteristics, and ink characteristics appear. Looking at the conventional methods for determining the authenticity of the bill using the inherent characteristics appearing in the bill, it can be divided into a method for determining the authenticity by sensing the shape, geological characteristics or surface properties printed on the bill.

First of all, it is difficult to discern the authenticity of banknotes by precisely analyzing the shape or surface characteristics printed on the banknotes with the naked eye, tactile or magnifying glass such as a magnifying glass, microscope, etc. Micro lettering technology that can be checked on the surface, Intaglio printing technology that can be recognized with touch by printing convex letters or patterns, and watermarks that show hidden pictures when the light shines on the paper money. Use technology.

However, the method of judging the authenticity of banknotes through the precise analysis of banknotes as described above takes a lot of time in the precision analysis process, and there is a problem in applying them to financial automated devices commonly used by many people. Due to the development, it is difficult to determine the authenticity of the banknote because the above-described characteristics can be implemented similarly to the original banknote.

Another method of judging authenticity using the characteristics of a special ink used in paper money, which is a method of judging the authenticity of paper money, irradiates light rays having a wavelength of a special area such as ultraviolet rays or infrared rays, although most appear in a single color in nature. When the energy corresponding to the wavelength indicates that the color is different from the color in the natural state, and the magnetic resistance material is contained in the magnetic material. It uses the property of bringing about the change of color by the slight heat applied to it.

The method of judging the authenticity of banknotes by using the unique properties of the special ink used in such banknotes is easier than the above-described precision analysis method, and the judgment speed is easy by automatically recognizing the characteristics of each special ink. Due to its rapid advantages, it is now widely used in financial automation equipment, and is performed using a contact image sensor including a light source unit for irradiating light rays and a light receiving unit for detecting the authenticity of banknotes.

FIG. 1 is a block diagram illustrating a conventional contact image sensor provided in a banknote identification device, and reflecting light sources at predetermined intervals on a conveyance path 102 for transporting a banknote 100 as shown in FIG. 1. A pair of contact image sensors including a light receiving part 120 and a light receiving part 122 and a light receiving part 112 corresponding to the light source 110 and the light reflecting part 120 and the light reflecting part 120, respectively. The light source is sequentially turned on to detect the light and the transmitted light reflected on the front and back sides of the banknote through each of the reflecting unit light receiving sensor 122 and the transmitting unit light receiving sensor 112 and sample the sample to determine the bill. Ink response and image patterns are acquired.

However, in the conventional contact image sensor, a light receiving sensor corresponding to each of the number of light sources provided must be installed, and the characteristics of two or more special ink such as ultraviolet ink, magnetic ink, infrared ink, etc. In the case of banknote identification and authenticity, the structure of the device becomes complicated as the number of light receiving sensors corresponding to the number of light sources provided is complicated, and the maintenance of the contact image sensor is not easy, and the time required for the recognition process is high. The problem arises.

The present invention is to solve the above problems according to the prior art. That is, an object of the present invention, a pair of first light emitting device is provided on the left and right sides of the light receiving sensor, a second light emitting device is provided at a position opposite to the light receiving sensor, a pair through the light receiving sensor And a contact image sensor module for receiving the light emitted from the first light emitting element reflected from the surface of the banknote and the light emitted from the second light emitting element passing through the banknote. The first contact image sensor module and the second contact image sensor module respectively configured as contact image sensor modules are arranged in series, and the arrangement structure of the first contact image sensor module and the second contact image sensor module are reversed. It is possible to quickly sense the front and back side of bills to be transported by placing them in contact with the contact. By providing an image sensor module, the space utilization of the transfer path is high, and a bill identification device using a contact image sensor module that can quickly and accurately carry out the determination of the winding and authenticity of bills.

As a technical idea for achieving the above object, the present invention, a light receiving sensor is provided on one side of the bill transfer path, a pair of first light emitting element is provided on both left and right sides of the light reception sensor, the bill transfer path The second light emitting element is provided at a position opposite to the light receiving sensor with the light interposed therebetween, and the light reflected from the surface of the banknote passing through the bill transfer path between the pair of first light emitting element and the second light emitting element and the The first contact image sensor module and the first contact image sensor module for receiving the light transmitted through the bill through the light receiving sensor, the same configuration as the first contact image sensor module, the upper and lower with the first contact image sensor module around the bill transfer path Is disposed in an inverted form, the second contact image sensor module disposed in series with the first contact image sensor module along the transfer path of the banknote, and the reference value of the original banknote are stored Calculates an identification value of a banknote by combining a plurality of pieces of information recognized by a database, the first contact image sensor module and the second contact image sensor module, and calculates the calculated banknote identification value and a reference value of the original banknote read from the database. The present invention provides a banknote identification device using a contact image sensor module including a central processing unit for comparing banknote identification and counterfeit.

Banknote identification device using the contact image sensor module according to the present invention, by providing a contact image sensor module that can sense the reflected light and transmitted light of the bill at the same time with only one light sensor, the recognition of the special ink response of the bill with only one light sensor And image patterns can be extracted, and the time required for special ink reaction recognition and image pattern extraction can be greatly reduced. In addition, the space utilization of the transfer path is high, the configuration of the device is simple and easy to manufacture, there is an advantage that can be carried out quickly and accurately judging the classification and authenticity of the bill.

1 is a cross-sectional view showing a conventional contact image sensor provided in the banknote identification device.
Figure 2 is a block diagram showing a banknote identification device using a contact image sensor module according to an embodiment of the present invention.
3 is a cross-sectional view showing an internal configuration of the contact image sensor module shown in FIG.
4 is a flowchart illustrating a banknote identification method using a contact image sensor module according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram illustrating a banknote identification device using a contact image sensor module according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view illustrating an internal configuration of the contact image sensor module shown in FIG.

As shown in FIG. 2, the banknote identification device using the contact image sensor module stores the first contact image sensor module 210 and the second contact image sensor module 220 and reference values for banknote identification and authenticity determination. A database 250 and a plurality of pieces of information recognized by the first contact image sensor module 210 and the second contact image sensor module 220 to calculate an identification value of a bill, and then to the database 250. The central processing unit 260 which determines whether the banknote is identified and counterfeited compared to the reference value read out, the memory 240 which stores the value calculated by the central processing unit 260, and the banknotes of the central processing unit 260 It comprises a display unit 230 for outputting the bill identification and authenticity determination results to the outside.

First, as illustrated in FIG. 3, the contact image sensor module includes a pair of first light emitting devices 212 and 222 on left and right sides of the light receiving sensors 216 and 226. Second light emitting elements 214 and 224 are provided at positions opposite to the light receiving sensors 216 and 226. The light receiving sensors 216 and 226 receive the light emitted from the first light emitting elements 212 and 222 and reflected from the surface of the banknote and the light emitted from the second light emitting elements 214 and 224 and transmitted through the banknote. Accordingly, the contact image sensor module of the present invention can simultaneously sense the reflected light and the transmitted light of the banknote with only one light receiving sensor.

The first light emitting devices 212 and 222 and the second light emitting devices 214 and 224 of the present invention are generally visible light having three wavelengths of red (R), green (G), and blue (B), and three wavelengths. Infrared rays (for example, when composed of three wavelengths of IRa, IRb, and IRc, IRa, IRb, and IRc are configured to have wavelengths of 600 nm to 750 nm, 750 nm to 850 nm, and 850 nm to 1000 nm, respectively) according to identification purposes. Can be released in combination. In addition, when the pair of first light emitting elements 212 and 222 positioned at both left and right sides of the light receiving sensors 216 and 226 are configured as light sources that emit light of the same wavelength band, the light receiving sensors 216 and 226 may be used. Simultaneously sense the reflected light incident from different directions and reflected from the bill surface at the same position, thereby efficiently correcting the identification error due to wrinkle or damage of the bill.

The light receiving sensors 216 and 226 receive the reflected light which is irradiated from the pair of first light emitting elements 212 and 222 and reflected on the bill and the transmitted light that is irradiated from the second light emitting elements 214 and 224 and passes through the bill. It is a means for recognizing each special ink reaction appearing in a specific area of and obtaining an image pattern of banknotes. Conventionally, since the reflected light and the transmitted light are separately sensed and extracted, the light receiving sensor for receiving the reflected light and the transmitted light has to be provided, respectively, but in the present invention, the configuration of the device is simple by providing a light receiving sensor capable of sensing both the reflected light and the transmitted light. And within a short time it is possible to recognize the image pattern acquisition and special ink reaction of the bill.

The contact image sensor module configured as described above is provided on the transport path 102 for transporting the bill 100, and a pair of contact images to sense both transmitted light and reflected light of the front and back of the bill 100 Sensor modules are arranged in series. At this time, the arrangement structure of the first contact image sensor module 210 and the second contact image sensor module 220 is quickly sensed the front and back of the banknote 100, which is disposed in an upside down shape and transferred. That is, the light receiving sensor 216 and the pair of first light emitting elements 212 of the first contact image sensor module 210 are positioned on the banknote transfer path, and the second light emitting element 214 is the light receiving sensor 216. When provided in the lower portion of the banknote transfer path facing the), the second light emitting element 224 of the second contact image sensor module 220 is located on the upper portion of the banknote transfer path, facing the second light emitting element 224 The light receiving sensor 226 and the pair of first light emitting elements 222 are positioned below the banknote conveying path. Accordingly, the first contact image sensor module 210 and the second contact image sensor module 220 may obtain a sensing result of transmitted light and reflected light for both the front side and the back side of the banknote 100 to be transferred.

The database 250 stores the reference value of the true banknote which is a standard of banknote identification and authenticity judgment, and the reference value for the paper types of the same one banknote is also different from each other according to the degree of use and damage strength of the banknote within a certain range. By storing, even if the paper money of the authenticity determination target is not a new paper money, it is possible to determine whether the bill is identified and counterfeit using the identification method according to the present invention.

The central processing unit 260 controls the respective devices, combines a plurality of data recognized by the light receiving sensors 216 and 226 into continuous data, and calculates an identification value of the bill from the combined data. . In addition, the central processing unit 260 performs banknote identification and authenticity through a comparison between the calculated identification value and the reference value for the genuine banknote stored in the database 250.

The memory 240 stores the identification value of the banknote calculated by the central processing unit 260, and the display unit 230 is a part for displaying the banknote identification and counterfeit determination result to the outside. It is composed of an alarm device for generating a warning sound, etc., and operates under the control of the central processing unit 260.

4 is a flowchart illustrating a banknote identification method using a contact image sensor module according to an embodiment of the present invention.

As described above, the first light emitting device and the second light emitting device of the contact image sensor module according to the present invention are typically visible light having three wavelengths of red (R), green (G), and blue (B), and three wavelengths. Infrared rays (e.g., consisting of three wavelengths of IRa, IRb, and IRc, IRa, IRb, and IRc are configured to have wavelengths of 600 nm to 750 nm, 750 nm to 850 nm, and 850 nm to 1000 nm, respectively) according to the purpose of identification. It is configured to emit in various combinations, and in some cases, the pair of first light emitting devices may be configured as a light source for emitting light of the same wavelength band.

As shown in FIG. 4, in the banknote identification method using the contact image sensor module according to the present invention, when the banknote is inserted into the banknote insertion slot of the banknote identification device using the contact image sensor module (S410), the banknote passes through the banknote transport path. And the first contact image sensor module and the second contact image sensor module provided on the transfer path as the banknotes are transferred, respectively, and transfer the banknotes through a pair of first and second light emitting elements provided in the module. The image of the banknote is sensed by irradiating light of a selected wavelength on the surface of the banknote transported along the furnace and sensing light reflected from the banknote and light passing through the banknote through a light receiving sensor (S420).

The light irradiated by the pair of the first light emitting device and the second light emitting device is received by the light receiving sensor after being reflected or transmitted through the banknote. Accordingly, the contact image sensor module of the present invention uses only one light receiving sensor and The transmitted light can be sensed at the same time. In addition, according to the present invention, the first contact image sensor module and the second contact image sensor module are disposed in series on the banknote bill transfer path, and the arrangement structures of the first contact image sensor module and the second contact image sensor module are respectively up and down. The first contact image sensor module and the second contact image sensor module may obtain transmitted and reflected light sensing results of both the front and back sides of the transferred banknotes by sensing the front and back sides of the transferred banknotes. Will be.

As described above, a variety of information, such as a unique brightness value and a color value, is generated by reacting a special ink used in the banknote by a plurality of light rays irradiated from the first light emitting device and the second light emitting device, and the central processing unit displays the first contact image. The identification value of the banknote is calculated by combining the plurality of reaction information sensed by the light receiving sensor of the sensor module and the second contact image sensor module (S430).

The central processing unit stores the calculated identification value of the bill in a memory, finds a reference value in a database in which the response information irradiated with visible light and infrared rays on the real money is compared with the bill identification value stored in the memory to compare the bill. It is determined whether the identification and counterfeiting (S440). In addition, the central processing unit displays the identification and counterfeit determination result of the banknote so as to be recognized externally or controls the operation of the display unit to generate an alarm signal (S450).

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, changes, and conversions are possible in the art without departing from the spirit of the present invention. It will be clear to those who have knowledge of God.

100: bill 102: transfer path
110: transmission part light source 112: transmission part light receiving sensor
120: reflector light source 122: reflector light receiving sensor
210: first contact image sensor module 220: second contact image sensor module
212 and 222: first light emitting device 214 and 224: second light emitting device
216, 226: light receiving sensor 230: display
240: memory 240: database
250: central processing unit

Claims (4)

In the banknote identification device for identifying the roll type and authenticity of the banknote,
A light receiving sensor is provided at one side of the banknote conveying path, and a pair of first light emitting elements are provided at left and right sides of the light receiving sensor, and a second position is disposed at a position opposite to the light receiving sensor with the banknote conveying path therebetween. A light emitting device is provided to receive, through the light receiving sensor, the light reflected from the surface of the bill passing through the bill transfer path between the pair of first light emitting device and the second light emitting device and the light passing through the bill. 1 contact image sensor module;
The first contact image sensor module is configured in the same configuration as that of the first contact image sensor module, and is disposed upside down from the first contact image sensor module around a bill transfer path, and is arranged along the transport path of bills. A second contact image sensor module disposed in series with the second contact image sensor module;
A database in which the reference value of the real money is stored; And
The identification value of the bill is calculated by combining a plurality of pieces of information recognized by the first contact image sensor module and the second contact image sensor module, and the bill value is compared with the calculated bill identification value and the reference value of the original bill read out from the database. A central processing unit for determining whether to identify and counterfeit;
Banknote identification device using a contact image sensor module comprising a.
The method of claim 1,
The pair of first light emitting devices and the second light emitting devices of the first contact image sensor module and the second contact image sensor module, respectively,
The visible light of three wavelengths of red (R), green (G), and blue (B) and the infrared rays of three wavelengths of IRa, IRb, and IRc (wherein wavelengths ωa, ωb, and ωc of IRa, IRb, and IRc, respectively) Banknote identification device using a contact image sensor module, characterized in that consisting of a light source for emitting light of at least one wavelength of 600nm <ωa <750nm, 750nm <ωb <850nm and 850nm <ωc <1000nm).
The method of claim 1,
Banknote identification device using a contact image sensor module, characterized in that further comprising a memory for storing the banknote identification value calculated by the central processing unit.
The method of claim 1,
Banknote identification device using a contact image sensor module, characterized in that further comprising a display unit for outputting the identification result and the counterfeit determination result for the banknote of the central processing unit.

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