JP6272632B2 - Detection device, detected object, identification object, and electronic device - Google Patents

Description

  The present invention relates to a detection apparatus, an authentication determination system, an object to be detected, an identification object, and an electronic apparatus that can determine information such as authenticity of genuine products and counterfeit products.

  In recent years, damage caused by counterfeit products has been increasing, and there is a need for a technology that can easily and inexpensively determine the authenticity of genuine and counterfeit products. 2. Description of the Related Art Conventionally, a technology has been proposed in which an article is provided with a security mark having a special ink portion that cannot be visually identified, and the security mark is read by a identifiable sensor to discriminate between a genuine product and a counterfeit product. This security mark is composed of a security mark that combines a color matching ink portion of black ink that absorbs in the near infrared region and a special ink portion of black ink that does not absorb in the near infrared region.

JP 2000-11131 A

  An object of the present invention is to provide a detection device, a detected object, an identification object, and an electronic apparatus that can determine information such as authenticity of a genuine product and a counterfeit product easily and inexpensively.

1. Detection device The detection device of the present invention,
A detection device for detecting information of a detected object,
The object to be detected is provided with an identification body provided with ink having different reflection characteristics at at least three different wavelengths, and an irreversible thermochromic part,
A plurality of light emitting units that emit light with respect to the identification body, and a light receiving unit that receives light reflected by the identification body among the light emitted from the light emitting unit,
Each of the plurality of light emitting portions emits light having a wavelength corresponding to a selected reflection characteristic in the ink,
A color recognition unit for recognizing the color of the thermal discoloration unit;

  The detection device of the present invention is for detecting ink having different reflection characteristics at at least three different wavelengths. The detection device includes a light receiving unit that emits light having a wavelength corresponding to the different reflection characteristics of ink toward the discriminator, and receives the light reflected by the discriminator. Therefore, according to the detection device of the present invention, it is possible to examine the reflection characteristics of ink at different wavelengths. In addition, by recognizing this reflection characteristic pattern and comparing it with the reflection characteristic pattern of the original ink, it is confirmed whether the identifier is a predetermined one (genuine product) by detecting whether the ink is a predetermined ink. can do. According to this, authenticity can be determined easily and inexpensively.

  In the present invention, an irreversible thermochromic portion is provided on the detection object. Thereby, it can be confirmed whether the said to-be-detected body has reached predetermined | prescribed temperature. By confirming whether or not the predetermined temperature has been reached, the heat history can be specified. In other words, it is possible to know whether or not a predetermined temperature has been reached in the manufacturing process where predetermined heat is applied, or that the predetermined temperature has been reached when the detected object has failed in the case of machinery. It is possible to know whether or not it is a malfunction.

In the present invention,
The ink has a first wavelength region having a light reflectance of 10% or less and a light reflectance of 43 to 73 in order of decreasing wavelength in the profile of light reflectance and wavelength of the light in the ink. % Second wavelength region and a third wavelength region having a light reflectance of 13 to 43%.

  The detection device of the present invention is suitable for those having such ink characteristics.

  The detection apparatus of the present invention may further include a reading unit that reads information obtained by converting predetermined information into a one-dimensional or two-dimensional code.

2. Information determination system The information determination system of the present invention uses the detection device of the present invention to determine information of a detection target to which an identification body is attached.

  In the information determination system of the present invention, the detection device determines whether the identification object attached to the detected object is an identification object to which the ink has been applied, and determines that the identification object has been subjected to the ink. In this case, it can be determined that the detected object is true.

  In the present invention, an irreversible thermochromic portion is provided on the detection object. Thereby, it can be confirmed whether the said to-be-detected body has reached predetermined | prescribed temperature. By confirming whether or not the predetermined temperature has been reached, the heat history can be specified. In other words, it is possible to know whether or not a predetermined temperature has been reached in the manufacturing process where predetermined heat is applied, or that the predetermined temperature has been reached when the detected object has failed in the case of machinery. It is possible to know whether or not it is a malfunction. In addition, it is possible to know whether the detected object has been illegally modified.

  Thereby, the amount of information that can be given to the identifier can be improved.

The information determination system of the present invention is a determination system for determining information of a detected object to which an identification body is attached using the detection device of the present invention,
The identifier includes a portion to which the ink is applied and a portion to which an ink that is not the ink is applied,
The information on the detected object can be determined by the arrangement or combination of the portion to which the ink is applied and the portion to which the ink other than the ink is applied.

  Thereby, the amount of information that can be given to the identifier can be improved.

3. Object to be detected The object to be detected of the present invention is:
At least three different wavelengths are provided with identifiers each provided with ink having different reflection characteristics, and an irreversible thermochromic part,
Information is given to the identifier,
Information can be determined by the sensing device of the present invention.

  Since the object to be detected of the present invention is provided with an identification body, information (for example, authentic information) of the object to be detected can be determined by the detection device.

  In the present invention, an irreversible thermochromic portion is provided on the detection object. Thereby, it can be confirmed whether the said to-be-detected body has reached predetermined | prescribed temperature. By confirming whether or not the predetermined temperature has been reached, the heat history can be specified. In other words, it is possible to know whether or not a predetermined temperature has been reached in the manufacturing process where predetermined heat is applied, or that the predetermined temperature has been reached when the detected object has failed in the case of machinery. It is possible to know whether or not it is a malfunction. In addition, it is possible to know whether the detected object has been illegally modified.

4). Identifier The identifier of the present invention is:
An identification body attached to the detected body of the present invention,
The identification body includes a portion to which the ink is applied and a portion to which an ink other than the ink is applied.

The identifier of the present invention is:
An identification body attached to the detected body of the present invention,
The identification body may include a first identification portion configured to include the ink and a second identification portion obtained by converting predetermined information into a one-dimensional or two-dimensional code.

5. Electronic device The electronic device of the present invention includes the detection device of the present invention. According to the electronic apparatus of the present invention, it is possible to detect the detected object by including the detection device. Thereby, for example, it is possible to drive only the electronic device that is determined to be a genuine product by the detection device.

  In the present invention, an irreversible thermochromic portion is provided on the detection object. Thereby, it can be confirmed whether the said to-be-detected body has reached predetermined | prescribed temperature. By confirming whether or not the predetermined temperature has been reached, the heat history can be specified. In other words, it is possible to know whether or not a predetermined temperature has been reached in the manufacturing process where predetermined heat is applied, or that the predetermined temperature has been reached when the detected object has failed in the case of machinery. It is possible to know whether or not it is a malfunction. In addition, it is possible to know whether the detected object has been illegally modified.

  The detection apparatus, information determination system, detected object, identification object, and electronic device of the present invention can determine information such as authenticity of genuine products and counterfeit products easily and inexpensively.

It is a block diagram of the information determination system which concerns on embodiment. It is a figure which shows a detection apparatus typically. It is a figure for demonstrating the characteristic of an ink. (A) is a figure which shows an example of a detection apparatus and an identification body, (B) is a figure which shows an example of an identification body. It is a figure which shows an example of a thermochromic part.

  Hereinafter, preferred embodiments of the present invention will be described in detail.

1. Information Determination System FIG. 1 is a configuration diagram of an information determination system according to an embodiment.

  The information determination system 100 includes the detection device 10 and performs information determination of the detection target 20 to which the identification body 22 is attached using the detection device.

2. FIG. 2 is a diagram schematically illustrating the detection device.

  The detection device 10 includes a light emitting / receiving unit 12. The light emitting / receiving unit 12 includes a plurality of light emitting units 14 a, 14 b, 14 c and a light receiving unit 16. The light emitting units 14a, 14b, and 14c are configured by LEDs, for example. The light receiving unit 16 receives light emitted from the light emitting units 14a, 14b, and 14c, and is configured by, for example, a photodiode. The plurality of light emitting units 14 a, 14 b, and 14 c emit light having different wavelengths, and the wavelengths are selected according to the reflection characteristics of the identifier 22. Note that four or more light emitting units may be provided. The light receiving unit 16 may be configured by providing a corresponding light receiving element for each light emitting unit, or may receive light from all the light emitting units with one light receiving element. Since the detection device 10 has such a configuration, it can be determined whether or not the ink applied to the identification body 22 is a predetermined ink, as will be described later.

  The detection device 10 determines the information (for example, detects authenticity) by tracing the identification body 22 with a pen-shaped one provided with a place to accommodate the detected body 20 to which the identification body 22 is attached. It may be a thing.

  As shown in FIG. 4, the detection device 10 may further include a reading unit 18 that reads information obtained by converting predetermined information into a one-dimensional or two-dimensional code. Examples of the information obtained by converting the predetermined information into a one-dimensional code include a bar code in which numerical values and characters are coded according to the thickness of the line. Examples of the information obtained by converting predetermined information into a two-dimensional code include a code (QR code (registered trademark)) in which dots are arranged vertically and horizontally. For the reading unit 18, for example, a known reading unit such as a barcode scanner can be applied. When the reading unit 18 is provided in the detection device 10, it is particularly useful when the identification body 22 further includes a portion obtained by converting predetermined information into a one-dimensional or two-dimensional code as will be described later.

  In the detection device 10, a portion where light enters and exits may be performed through an optical fiber. Thereby, the light can be converged and emitted to a specific region, and the reflected light can be captured more reliably.

  Moreover, the detection apparatus 10 may have a recognition means for recognizing information unique to a person (for example, fingerprint, iris, vein form). According to this, when the detection apparatus 10 is permitted to handle only a specific person, it can be determined whether or not the person is that person. Moreover, you may make it judge whether it is a person who can perform a certain process (For example, decomposition | disassembly of the said to-be-detected body, repair) to the thing to which the identification body 22 is attached | subjected.

  The detection device 10 is provided with a color recognition unit 30. The color recognizing unit 30 is for detecting the color of the irreversible thermal color changing unit 24 provided in the detection target 20. The color recognition unit 30 can be configured by, for example, a CCD camera.

The irreversible thermochromic portion 24 is provided with a thermochromic material that changes color when, for example, the temperature changes to a predetermined temperature or higher. As the thermochromic material, for example, materials disclosed in JP-A-10-119435 and JP-A-2000-326410 can be applied. The thermochromic portion 24 can be configured, for example, by applying, printing, or attaching a label with a thermochromic material applied thereto. Specifically, the thermochromic portion 24 prints a thermochromic material on a mounting surface (solder surface) on which circuit elements are mounted, or a label with a thermochromic material attached to the mounting surface (solder surface). You may stick and provide.

  The thermochromic temperature of the thermochromic material can be set to a desired temperature by adjusting the material components. For example, it can be set to the melting temperature of solder. By setting the solder melting temperature to the solder discoloration portion 24, it is possible to confirm whether or not the solder temperature has risen to the melting temperature when soldering is performed.

  By providing the thermal discoloration portion 24 in the detected object 20 including an electric circuit such as a circuit board, when the detected object 20 fails or is modified, the detected object 20 is excessively heated or melted. It can be confirmed whether the temperature has risen above the temperature. This has the following effects. A problem has been pointed out that the detected object 20 illegally changes the function of the detected object 20 by replacing the circuit element by melting the solder by applying heat above the solder melting temperature to the circuit board, without the manager's knowledge. However, even in such a case, if the circuit board of the detected object 20 becomes equal to or higher than the solder melting temperature, the color change of the thermochromic portion 24 is caused, so that it can be seen whether the detected object 20 has risen to the solder melting temperature. As a result, it is possible to know whether a circuit element has been exchanged or an exchange has been attempted without the administrator's knowledge. Therefore, it is possible to know illegal modification and improve security.

  By providing the thermal discoloration portion 24 on the detected object 22 including an electric circuit such as a circuit board, when an element of the circuit board of the detected object 22 is attached by soldering, an appropriate temperature is applied for attaching the element. It is possible to confirm whether or not soldering has been performed. That is, in an object manufactured by a manufacturing method including a step of applying heat (for example, a reflow step), it can be confirmed whether or not heat has been applied to a predetermined temperature in the step of applying heat.

  In addition, when the heat discoloration part 24 is applied to a device that fails when excessively heated (for example, precision machinery such as an electronic device), when the device itself has failed, it has failed to reach a predetermined temperature or more. You can check whether or not.

3. Discriminator The discriminator 22 will be described. The identification body 22 is configured by applying ink to a base. The ink is applied to the base of the identification body 22 by, for example, printing or coating. The technique disclosed in Japanese Patent Application No. 2008-193283 can be applied to the ink. The ink has different reflection characteristics in at least three different wavelength ranges. In particular, as shown in FIG. 3, the ink has a first wavelength region (for example, a wavelength region where the reflectance of light is 10% or less) A1 and a second wavelength region (for example, the reflectance of light) in order of decreasing wavelength. Having a wavelength range of 43 to 73%, preferably 55 to 65%) A2, and a third wavelength range (for example, a light reflectance of 13 to 43%, preferably 23 to 33%). Is preferred. Here, the reflectance of the third wavelength region is preferably in the range of 30 to 70% than the reflectance of the second wavelength region. According to the technique disclosed in Japanese Patent Application No. 2008-193283, such a wavelength region can be formed in the near infrared region or the infrared region. The first wavelength region A1 to the third wavelength region A3 may or may not be continuous.

  In this case, the first light emitting unit 14a emits light having a wavelength in the first wavelength region A1, and the second light emitting unit 14b emits light having a wavelength in the second wavelength region A2. It is assumed that the third light emitting unit 14c emits light having a wavelength in the third wavelength region A3.

  Although the shape of the identification body 22 is not particularly limited, handling can be facilitated by using a label. The base of the identification body 22 can be made of, for example, paper, a resin film, a metal sheet, fiber, leather, glass, or the like.

  As shown in FIG. 4A, the identification body 22 includes a first identification portion including the above-described ink, and a second obtained by converting predetermined information into a one-dimensional or two-dimensional code. And an identification part. Examples of the information obtained by converting the predetermined information into a one-dimensional code include a bar code in which numerical values and characters are coded according to the thickness of the line. Examples of the information obtained by converting predetermined information into a two-dimensional code include a code (QR code (registered trademark)) in which dots are arranged vertically and horizontally. Thus, for example, the first identification portion 22a is a portion to which information for authenticity determination is given, and predetermined information (history information, manufacturing information, characteristic information, price information (price, price reduction) is assigned to the second identification portion 22b. Rate), delivery information, etc.), and the amount of information stored in the identifier 22 itself can be improved.

  Furthermore, as shown in FIG. 4B, the identification body 22 can include a portion to which the above ink is applied and a portion to which an ink other than the above ink is applied. These portions may be provided in a line shape or a dot shape, for example. Some information (history information, manufacturing information, characteristic information, price information (price, price reduction rate), delivery information, etc.) can be given to the arrangement or combination of these parts.

  Specifically, in the case where there are three ink-applied parts, the combination of the above-mentioned ink part, the above-mentioned non-ink part, and the above-described ink part must be made in Japan. This means that the combination of the above-described ink portion, the above non-ink portion, and the above non-ink portion can be made in Europe. This meaning can be appropriately determined by the person who uses it. Also, more information can be given by considering the order. Further, based on this combination, authenticity determination may be made such that a predetermined combination is determined to be true, and otherwise it is determined to be false. Thereby, security can be further improved.

Further, by incorporating RFID (Radio Frequency Identification) into the identification body 22, the amount of information can be stored more.
The thermochromic part may be provided on the identification body 22.

4). Information Determination Operation As an example of information determination operation, an example of authenticity determination will be described, and an example of the operation will be described.

  An example in which the ink of the identifier 22 has first to third different three reflection characteristics (for example, reflectance) will be described. Here, the first light emitting unit 14a emits light having a wavelength corresponding to the first reflection characteristic of the ink of the identification body, and the second light emitting unit 14b has light having a wavelength corresponding to the second reflection characteristic. The third light emitting unit 14c emits light having a wavelength corresponding to the third reflection characteristic.

  First, the first light emitting unit 14a emits light toward the discriminating body 22, the light reflected by the discriminating body 22 is received by the light receiving unit 16, and the light of the discriminating body 22 in the wavelength region of light of the first light emitting unit 14a is received. Derivation of reflection characteristics. When the light receiving unit 16 is a photodiode, the reflection characteristic (intensity of the reflected light) can be derived based on the output voltage of the photodiode when the reflected light is received. Next, the second light emitting unit 14b emits light toward the discriminating body 22, the light reflected by the discriminating body 22 is received by the light receiving unit 16, and the discriminating body 22 in the wavelength range of light of the second light emitting unit 14b. Deriving the reflection characteristics of. Next, the third light emitting unit 14c emits light toward the discriminating body 22, the light reflected by the discriminating body 22 is received by the light receiving unit 16, and the discriminating body 22 in the wavelength region of light of the third light emitting unit 14c. Deriving the reflection characteristics of. Based on the reflection characteristics of the discriminator 22 in these three wavelength ranges, it is determined whether the ink has a predetermined characteristic, and the authenticity of the ink to which the discriminator 22 is attached is determined. That is, if the detected reflection characteristic pattern is a predetermined reflection characteristic pattern, it is determined to be true, and if it is not a predetermined reflection characteristic pattern, it is determined to be false. Further, the reflectance of light by any one of the light emitting units may be specified, and determination may be made based on a relative value between the reflectance and the reflectance of light by the other light emitting units.

  The reflection characteristics can be obtained by converting the light received by the light receiving unit 16 into a voltage and deriving the degree of reflection based on the output voltage.

  The authenticity determination can be performed more accurately and accurately by looking at the ratio of each output voltage. The authenticity determination can be realized by a known arithmetic device such as a microcomputer.

  The light emission cycle of the first light emitting unit 14a to the third light emitting unit 14c may be one time or may be a plurality of times. In the above example, the example in which the first light emitting unit 14a, the second light emitting unit 14b, and the third light emitting unit 14c emit light is shown. However, the order in which the light emitting units 14a, 14b, and 14c emit light is shown. However, the present invention is not limited to this, and all possible light emission sequences are applicable.

  Further, an optical waveguide may be provided between the detection device 10 and the detection target 20, and the light may be guided to the identification body 22, and the reflected light may be guided to the light receiving unit through the optical waveguide.

  A display unit that displays the result of the authenticity determination may be provided. For the display unit, a known display device (for example, a liquid crystal display device, a visible light emitter such as an LED) can be applied. For example, a light emitter (for example, a visible LED) is allowed to emit light only in the true case. May be. Different light may be emitted depending on whether it is true or false.

5. Application Example The detection apparatus 10 may be configured independently, but may be applied as follows, for example.
(1) The identification body 22 can be provided in the battery of an electronic device, and the detection apparatus 10 can be attached to the storage part of the battery of an electronic device. Specific examples of electronic devices include, for example, portable information terminals (POS terminals, meter readers and transporters, service providers such as mobile phones, personal computers, printers, electronic computers, digital cameras, and PDAs (Personal Digital Assistants). And the terminal that is included in the performance). By attaching the detection device 10 in this way, it is possible to determine the authenticity of the components of the electronic device to which the identification body 22 accommodated in the electronic device is attached. In this case, the electronic device can be activated only when the component is determined to be a genuine product.
(2) The identification device 22 may be attached to the ink cartridge of the printer, and the detection device 10 may be attached to the accommodating portion of the ink cartridge of the printer.

6). Application example of information determination system (1) Application example in which the identification device 22 is attached to a part of an FA (Factory Automation) device itself, and information detection such as authentication is performed by the detection device 10 when the component is attached to the device. There is.
(2) There is an application example in which the detection device 10 performs information determination such as authentication when attaching the identification body 22 to a vehicle part and attaching the part to the vehicle.
(3) There is an application example in which the identification device 22 is attached to a banknote, a ticket, a passport, and the like, and the detection device 10 detects information determination such as authenticity determination of the banknote. In addition, the identification device 22 may be attached to various items (brand products, luxury goods, etc.), and information determination such as authenticity determination may be performed by the detection device 10.
(4) The history information of the container can be confirmed by attaching the identification body 22 to the container and giving the history information to the identification body 22.

  The present embodiment can be variously modified within the scope of the present invention.

  The detection apparatus, information determination system, detected object, identification object, and electronic device of the present invention can determine information such as authenticity of genuine products and counterfeit products easily and inexpensively.

DESCRIPTION OF SYMBOLS 10 Detection apparatus 12 Light-receiving / emitting part 14a, 14b, 14c 1st-3rd light-emitting part 16 Light-receiving part 18 Reading part 20 Detected object 22 Identification body 24 Thermal discoloration part 30 Color recognition part 100 Information determination system

Claims (5)

A detection device for detecting information of a detected object,
The detected object is:
An electrical circuit in which circuit elements are soldered;
An identifier with inks having different reflection characteristics at at least three different wavelengths ;
Including an irreversible thermochromic part ,
The detection device is:
A plurality of light emitting units that emit light to the identifier,
A light receiving unit that receives light reflected by the identifier among the light emitted from the light emitting unit;
A color recognition unit for recognizing the color of the thermochromic portion,
The thermal discoloration part is provided in the vicinity of the circuit element soldered to the electric circuit, and changes color at a solder melting temperature or higher,
Each of the plurality of light emitting portions emits light having a wavelength corresponding to a selected reflection characteristic in the ink,
The detection device determines whether the identification body is an identification body to which the ink has been applied, based on light reflected by the identification body received by the light receiving unit, and an identification body to which the ink has been applied. If so, determine that the detected object is true, and
Based on the color of the thermochromic part recognized by the color recognition part, it is determined whether or not the thermochromic part is discolored, and if it is determined that the color is not discolored, the circuit element is not replaced, Or, a detection device that determines that no replacement has been attempted. An electrical circuit in which circuit elements are soldered;
At least three different wavelengths, each having an identifier with different reflection characteristics;
Including an irreversible thermochromic part,
The thermal discoloration part is provided in the vicinity of the circuit element soldered to the electric circuit, and changes color at a solder melting temperature or higher,
Information is given to the identifier,
A detected object whose information can be determined by the detection device according to claim 1. An identification body attached to the body to be detected according to claim 2,
The identification body includes a portion to which the ink is applied and a portion to which an ink other than the ink is applied. An identification body attached to the body to be detected according to claim 2,
The identification body includes a first identification portion configured to include the ink, and a second identification portion obtained by converting predetermined information into a one-dimensional or two-dimensional code.   An electronic device comprising the detection device according to claim 1.

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