KR200441964Y1 - A discerning apparatus for counterfeit note using contact image sensor - Google Patents

Abstract

The present invention relates to a counterfeit identification device using a contact image sensor, and more particularly to a counterfeit identification device using a contact image sensor that can reduce the maintenance cost by increasing the replacement cycle of the light source.

The counterfeit identification device using the contact image sensor according to the present invention, a transfer unit for moving the bill, a light source unit provided on one side of the transport unit for emitting a light beam and a light receiving unit for receiving the light beam emitted from the light source unit to identify the authenticity of the bill In the forgery identification device using a contact image sensor comprising a, wherein one side of the light source unit is provided with a light source unit transfer device for automatically measuring the light intensity of the light emitted from the light source unit to move the light source to the light receiving side. It is done.

Counterfeit, CIS (contact image sensor), LED, light receiver, light source

Description

A discerning apparatus for counterfeit note using contact image sensor}

1 is a view briefly showing the configuration of the forgery identification device using a contact image sensor according to a first embodiment of the present invention.

2 is a view briefly showing the configuration of the forgery identification apparatus using a contact image sensor according to a second embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10, 100: light source 20, 200: light receiving part

30, 300: light source module 31, 310: light source

40, 400: light source unit feeder 410: lever

50, 500: transfer part

The present invention relates to a counterfeit identification device using a contact image sensor, and more particularly to a counterfeit identification device using a contact image sensor that can reduce the maintenance cost by increasing the replacement cycle of the light source.

Generally, various advanced technologies are applied to securities such as banknotes or checks to prevent forgery and alteration, and thus unique geological characteristics, background colors, surface characteristics, and ink characteristics appear.

Looking at the methods of determining the authenticity of paper money using the unique characteristics of paper money, the method of precisely analyzing the shape, geological properties, or surface characteristics printed on paper money, and the unique properties of special ink used in paper money. It can be divided into the method of detecting the authenticity by detecting the authenticity.

The method of identifying the authenticity of bills by precision analysis method uses a magnification analysis device such as the shape or surface characteristics printed on the bills with the naked eye, touch, magnifier, microscope, etc. Lettering technology, intaglio printing technology in which letters or patterns are convexly printed on a bill and perceived by touch, and watermark technology that checks a hidden picture when a visible light is reflected on the bill.

This method takes a lot of time in the precision analysis process and is problematic in applying to automatic teller machines (ATMs), which are used by many people, and due to the development of precision printing techniques such as copying and scanning, Similarly, the above-described characteristics can be implemented, which makes it difficult to determine the authenticity of a banknote.

Another method of determining the authenticity of banknotes is the method of determining the authenticity using the characteristics of the special ink used in the banknotes. The color corresponding to the color in the natural state is expressed by the energy corresponding to the wavelength, and the magnetic reluctance (MR) value is different depending on the position used in the banknote by containing a magnetic material inside. It has the property of bringing a change of color by the property of the branch or the minute heat applied to the banknote. Examples of the special ink having such characteristics include ultraviolet ink, infrared ink, magnetic ink, and color change ink.

In particular, the method of determining the authenticity of a banknote by irradiating a light ray having a wavelength of a special region uses a contact image sensor including a light source unit for irradiating the light ray and a light receiving unit for detecting the authenticity of the banknote. The LED lamp will be used as a light source for a long time, and the light intensity emitted from the LED lamp will be weak, which may cause errors in identifying the authenticity of banknotes on the light receiving side. Therefore, the LED lamp should be replaced, which increases the maintenance cost. Works.

Accordingly, the present invention is to solve the above problems, by providing a light source unit transfer device that can move the light source unit to the light receiving unit side according to the light intensity of the light source unit to provide a light beam that can be detected by the light receiving unit even if the light intensity is weakened. The purpose of the present invention is to provide a counterfeit identification device using a contact image sensor that can reduce the maintenance cost by increasing the replacement cycle of the light source.

In order to achieve the above object, the counterfeit identification device using the contact image sensor according to the first embodiment of the present invention, a transfer unit for moving the bill, and a light source unit provided on one side of the transfer unit and emitted from the light source unit In the forgery identification device using a contact image sensor comprising a light receiving unit for receiving the light beam to identify the authenticity of the bill, On one side of the light source unit by measuring the light intensity of the light emitted from the light source unit automatically Characterized in that the light source unit transfer device for moving to the light receiving portion side.

In addition, the counterfeit identification device using a contact image sensor according to a second embodiment of the present invention to achieve the above object, the transfer unit for moving the bill, the light source unit provided below the transfer unit and emits light from the light source unit In the forgery identification device using a contact image sensor comprising a light receiving unit for receiving the light rays emitted to identify the authenticity of the bill, the one side of the light source portion in accordance with the light intensity of the light emitted from the light source portion transport distance It is characterized in that it comprises a light source unit conveying apparatus for calculating a and tells the screen or accountants of the automated teller machine, and a lever connected to the light source unit through the light source unit conveying device to convey the light source unit.

Hereinafter, embodiments of the present invention will be described in detail, but the present invention is not limited to the following embodiments unless departing from the gist of the present invention.

1 is a view briefly showing the configuration of the forgery identification apparatus using a contact image sensor according to a first embodiment of the present invention.

Referring to FIG. 1, the counterfeit identification device using the contact image sensor according to the present invention includes a transfer unit 50 for transferring banknotes, a light source unit 10 provided below the transfer unit 50 to emit light, and a light source unit ( And a light receiving unit 20 for receiving the light rays emitted from the light source 10 and identifying the authenticity of the bill. The light source unit 10 includes a light source unit for moving the light source unit 10 to the light receiving unit 20 in accordance with the light intensity of the light beam. It is characterized in that the device 40 is provided. Here, the light source unit 10 uses a light source module 30 equipped with a plurality of LEDs 31 as a light source.

Counterfeit identification device using a contact image sensor according to the present invention is provided inside the ATM (Automatic Teller Machine; ATM), banknotes are introduced into the conveying unit 50 is separated into a sheet by a roller into the conveyer 50 When passing, the light rays emitted from the light source unit 10 passes through the banknotes, and the light receiving unit 20 receives them to identify the authenticity of the banknotes.

The light source unit 10 includes a light source module 30 mounted with a plurality of LEDs 31 emitting infrared or visible light. In addition, the light source unit 10 is provided with a sensor for measuring the light intensity emitted from the light source module 30. The light intensity measured by the sensor is transmitted to the light source unit transfer device 40 described later to control the movement of the light source unit 10.

One side of the light source unit 10 is equipped with a light source unit transfer device 40 for moving the light source module 30 to the light receiving unit 20 side.

The light source unit transfer device 40 includes a scale unit, a control unit that calculates a transfer time and a transfer distance of the light source module 30 according to the light intensity measured by the sensor of the light source unit 10, and receives a command from the control unit. A power unit for feeding 30 is provided.

The light receiving unit 20 may be formed of an optical sensor such as a plurality of photoelectric elements configured in a matrix array, and may determine the authenticity of the banknote by measuring the wavelength of the light beams passing through the banknote. As the light beam emitted from the light source unit 10 passes through the banknote, the amount of light decreases. When the intensity of the light beam emitted from the light source unit 10 is weak, the amount of light detected by the light receiver 20 is weak, so that the authenticity of the banknote can be identified. Becomes difficult. At this time, the sensor of the light source unit 10 continuously measures the light intensity of the light emitted from the light source module 30 and provides it to the control unit of the light source unit transfer device 40, the light intensity is less than the amount of light measurable in the light receiving unit 20 The control unit calculates a transport distance and transfers the light source module 30 to the light receiving unit 20 through the power unit. When the light source module 10 is located closer to the light receiving unit 20 in this way, even if the light intensity emitted from the light source 31 is weakened, the light receiving unit 20 can detect the amount of light sufficient to identify the authenticity of the banknote.

2 is a view briefly showing the configuration of the forgery identification apparatus using a contact image sensor according to a second embodiment of the present invention.

In the above-described first embodiment, a device for measuring light intensity emitted from the light source unit 10 in the light source unit transfer device 40 and automatically transferring the light source unit 10 according to the measured light intensity is described.

In the second embodiment of the present invention, a device for manually transporting the light source module 300 will be described.

Referring to FIG. 2, the counterfeit identification device using the contact image sensor according to the second embodiment of the present invention includes a transfer unit 500 for transferring bills and a light source unit 100 provided below the transfer unit 500 to emit light rays. And a light receiving unit 200 for receiving the light rays emitted from the light source unit 100 to identify the authenticity of the bill. The light source unit 100 includes the light source unit 100 according to the light intensity of the light beams. It is characterized in that the lever 410 is connected to the light source transfer unit 400 and the light source transfer unit 400 for moving to the side to move the light source unit 100.

The light source unit 100 includes a light source module 300 mounted with a plurality of LEDs 310 emitting infrared or visible light. In addition, the light source unit 100 is provided with a sensor for measuring the light intensity emitted from the light source module 300. The light intensity measured by the sensor is transmitted to the light source unit transfer device 400 described later to control the movement of the light source module 300.

The light source unit transfer device 400 includes a scale unit and a control unit which calculates and informs the transfer distance of the light source module 300 according to the light intensity measured and provided by the sensor of the light source unit 100, and the light source unit transfer device 400. One side of is provided with a lever 410 connected to the light source unit 100 to transfer the light source module 300 of the light source unit (100).

The light receiving unit 200 may be formed of an optical sensor such as a plurality of photoelectric elements configured in a matrix arrangement, and may identify the authenticity of the banknote by measuring the wavelength of the light beam passing through the banknote. As the light beam emitted from the light source unit 100 penetrates the bill, the amount of light decreases. When the intensity of the light beam emitted from the light source unit 100 is weak, the amount of light detected by the light receiver 200 is weak, so that the authenticity of the correct bill can be identified. Becomes difficult. At this time, the sensor of the light source unit 100 continuously measures the light intensity of the light emitted from the light source module 310 to provide to the control unit of the light source unit transfer device 400, the light intensity is less than the amount of light measurable in the light receiving unit 200 When the control unit calculates the transfer distance tells the display device or accountant of the automated teller machine to transfer the light source module 300, the officer checks this and checks the scale as much as the calculated transfer distance by moving the lever 410. Transfer module 300.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be determined by the utility model registration claims described below and equivalents thereof.

As described above, the forgery discrimination apparatus using the contact image sensor according to the present invention, when the light intensity of the light source unit emitting visible light is weakened, the light source unit is moved to the conveying unit side for transferring the bills to replace the LED used as the light source. Since the cycle can be increased, the maintenance cost can be reduced.

Claims (4)

In the forgery identification device using a contact image sensor comprising a transfer unit for moving a bill, a light source unit provided on one side of the transport unit for emitting a light beam and a light receiving unit for receiving the light beam emitted from the light source unit to identify the authenticity of the bill; , One side of the light source unit is a forgery identification device using a contact image sensor, characterized in that the light source unit transfer device for measuring the light intensity of the light emitted from the light source unit to automatically move to the light receiving unit side. The method of claim 1, The light source unit transfer device includes a scale for measuring a transfer distance of the light source unit, a control unit for calculating a transfer time and a transfer distance of the light source unit according to the light intensity of the light emitted from the light source unit, and the transfer distance calculated by the control unit. Counterfeit identification device using a contact image sensor, characterized in that it comprises a power unit for transferring the light source as much. In the forgery identification device using a contact image sensor comprising a conveying unit for moving the bill, a light source unit provided below the conveying unit for emitting a light beam and a light receiving unit for receiving the light beam emitted from the light source unit to identify the authenticity of the bill. , One side of the light source unit is connected to the light source unit through a light source unit transfer device that calculates the transfer distance of the light source unit according to the light intensity of the light emitted from the light source unit and informs the screen or a member of the automated teller machine, and the light source unit transfer device Disposing of the forgery using a contact image sensor, characterized in that it comprises a lever for transferring the light source. The method of claim 3, wherein The light source unit transfer device calculates a transfer time and a transfer distance of the light source unit according to a scale unit for measuring the transfer distance of the light source unit and the light intensity of the light emitted from the light source unit, and informs the screen or accountant of the automated teller machine. The forgery identification device using a contact image sensor, characterized in that comprising a control unit.

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