JP2017141065A - Printer sheet authenticity determination system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a printer sheet authenticity determination system that determines whether a printer sheet used for a particular printer is a sheet recommended to be used in the particular printer and allows use of the recommended sheet under recommended conditions.SOLUTION: This printer sheet authenticity determination system is provided with: pattern reading means for recognizing information patterns displayed at one or more designated positions pn a printer sheet on which printing is performed by a printer; authenticity determination means for determining authenticity on the basis of information detected by the pattern reading means; and control means for driving the printer under a predetermined first control condition when the printer sheet is determined to be a recommended printer sheet by the authenticity determination means and under a predetermined second control condition when the printer sheet is determined not to be a recommended printer sheet.SELECTED DRAWING: Figure 2

Description

  The present invention determines whether the paper used for a specific printer is recommended or not recommended for use with a specific printer, and uses the recommended paper under recommended processing conditions. It relates to a system that can be used.

  In printers such as label printers, a printer that can reliably detect abnormality in paper conveyance has been proposed (see, for example, Patent Document 1). Specifically, in this printing apparatus, when the label is conveyed to the print head side by step driving of the motor, and the position detection mark or the gap between the labels is detected by the first position detection sensor, the CPU controls. When the count of the number of steps of the pulse motor is started and the count up to the reference number of steps in the motor for conveying a certain distance between the first position detection sensor and the second position detection sensor is performed When the position detection mark or the gap between the labels is not detected by the second position detection sensor, it is determined that the sheet conveyance is abnormal.

  On the other hand, for example, the information pattern of the printer paper printed by the printer is read using a two-dimensional code such as “QR code (registered trademark)” and not only the information pattern is read but also the authenticity of the information is determined. What to do is also considered.

JP 2005-314047 A

  As for printers, operation is rarely guaranteed for all sheets, and it is mainstream to guarantee operation for encouraged sheets. In particular, when thermal transfer printing is performed using label paper that has an adhesive layer on the back side of the printing surface that has an adhesive layer attached to the backing sheet, the adhesive strength is increased by heat during the printing operation. Changes. For this reason, there is a possibility that the label sheet itself is displaced from the mount and the printing surface is displaced, or the label sheet is peeled off from the mount and stuck inside the printer, thereby impairing the operation or causing a failure.

  For this reason, it has been strongly recommended for printer manufacturers and maintenance personnel to use recommended paper. On the other hand, for the user, printer paper that cleared finer standards than the adhesive strength and paper thickness regulations etc. is expensive, and it may be considered that there is no problem even if cheaper printer paper is used. The Lord.

  The present invention determines whether the paper used for a specific printer is recommended or not recommended for use with a specific printer, and the recommended processing conditions for the recommended paper. The purpose of this paper is to obtain a printer paper authenticity judgment system that can be used with the printer.

The printer paper authenticity determination system according to the invention described in claim 1 is an authentication system for determining whether or not the printer paper printed by the printer is a recommended paper,
Pattern reading means for recognizing non-contact information patterns arranged at one or more predetermined positions on printer paper to be printed by the printer;
Authenticity determining means for determining authenticity based on information detected by the pattern reading means;
When it is determined that the printer paper is recommended by the authenticity determination means, a second predetermined value is determined when it is determined that the printer paper is not recommended under a first predetermined control condition. And a control means for driving the printer under control conditions.

According to a second aspect of the present invention, there is provided a printer paper authenticity determination system comprising: a non-contact pattern reading unit according to the first aspect;
An electromagnetic wave irradiation means for irradiating an electromagnetic wave including visible light and invisible light to a mark recording region including an information pattern arranged at one or more predetermined positions of a printer paper printed by the printer;
And an electromagnetic wave reading means for reading the reflected wave or transmitted wave of the information pattern by the electromagnetic wave irradiation means and giving the detected information to the authenticity determination means.

  A printer paper authenticity determination system according to a third aspect of the invention is that the first control condition according to the first or second aspect is performed at a printing speed faster than the second control condition. It is a feature.

  According to a fourth aspect of the present invention, there is provided a printer paper authenticity determination system according to any one of the first to third aspects, wherein the second control condition exceeds a predetermined number of issued sheets. This is characterized in that the driving is stopped.

  According to a fifth aspect of the present invention, there is provided a printer paper authenticity determination system comprising a fluorescent ink that emits light when the information pattern according to any one of the first to fourth aspects is excited by irradiation with invisible light. It is characterized by.

  The present invention provides a printer paper authenticity determination system that determines whether paper is recommended or not recommended for use with a specific printer, and allows the recommended paper to be used under recommended processing conditions. Can be obtained.

It is a top view of the printer paper used by one Example of the authenticity determination system of this invention. It is a block diagram which shows the structural example of the reader used in one Example of the authenticity determination system of this invention. It is a flowchart of the authenticity determination used in one Example of the authenticity determination system of this invention.

  In the present invention, there is provided a system for determining whether or not a printer paper printed by a printer is an encouraged paper, and an information pattern arranged at one or more predetermined positions of the printer paper printed by the printer. Is determined in advance when it is determined that the paper is a printer paper encouraged by the pattern reading means for recognizing the image in a non-contact manner, the authenticity determining means for determining the authenticity based on the information detected by the pattern reading means, and the authenticity determining means. Control means for driving the printer under a second control condition determined in advance when it is determined that the printer paper is not recommended under the first control condition. Accordingly, it is possible to determine whether the paper is recommended or not recommended for use with a specific printer, and the recommended paper can be used under the recommended processing conditions.

  As the pattern reading means for recognizing in a non-contact manner of the present invention, any means capable of recognizing an information pattern in a non-contact manner is sufficient. As non-contact recognition, electromagnetic waves including light, magnetism, or the like can be used. For example, the information pattern can be irradiated with electromagnetic waves including visible light and invisible light, and transmitted waves (transmitted light) or reflected waves (reflected light) can be used. In magnetism, a ferromagnetic material may be magnetized to generate a residual magnetic field, which may be recognized.

  More preferably, the non-contact pattern reading means includes visible light and invisible light in a mark recording area including an information pattern arranged at one or more predetermined positions on a printer paper to be printed by a printer. An information pattern can be recognized in a non-contact manner by including an electromagnetic wave irradiation means for irradiating an electromagnetic wave and an electromagnetic wave reading means for reading the reflected wave or transmitted wave of the information pattern by the electromagnetic wave irradiation means and providing the detected information to the authenticity determination means. can do.

  As the printer of the present invention, any printer that is encouraged to be used with a specific printer may be used. For example, printers for home and office use, printers that print on special paper such as label printers, tag printers, and photo printers, and RFID with an RFID chip between the label and mount Also included are printers such as label printers, labels with no mount and linerless label printers with glue side only, and duplex printers that print both front and back sides. In particular, many label printers, tag printers, and photo printers are printers that print on specific paper, and these printers are recommended for the paper to be used. It is.

  As the printer paper of the present invention, for example, a fanfold paper folded along perforations engraved on the paper or an adhesive layer surface of a label paper having an adhesive layer on the back side of the printing surface is attached to the mount. Roll label paper that has been integrated into one piece, product tag roll paper in which product tags with pre-threaded rolls are rolled up, and photo paper with a glossy surface or a surface with less ink bleeding It is done.

  As for the printing method of the printer, this determination system can be applied to any printer that can print on a specific sheet. For example, it can be used in a printer such as a laser printer or an inkjet printer. In particular, in the present invention, heat transfer printing with a thermal printer or black printing in response to heat is performed on a roll-like label paper that is integrated by sticking the adhesive layer surface of a label paper having an adhesive layer on the back side of the printing surface to the mount. It is suitable for those performing thermal printing. Pre-determining unencouraged paper that may cause label paper to be displaced from the backing sheet and print surface or label paper to be peeled off from the backing paper due to changes in adhesive strength due to heat, etc. during printing operations Because it can.

  As the information pattern of the present invention, any information pattern may be used as long as it is arranged at one or more predetermined positions on the printer paper to be printed by the printer. For example, it can be used even if there is a cut or a hole in a predetermined position of the printer paper. Preferably, it can also be used by recognizing it with an emboss pattern of a specific shape formed at a predetermined position on the printer paper, or with a transmitted wave (light) or reflected wave (light) of the print pattern. The printed pattern may be a pattern that transmits and reflects with visible light or a pattern that transmits and reflects with invisible light.

  As a specific information pattern, a conventionally used position information pattern itself may be used, or it may be arranged separately or in the vicinity of this position information pattern. For example, a position detection mark such as an eye mark printed in advance on the front surface or back surface of the mount sheet is used to clarify the position of the label sheet that is evenly bonded to the surface of the mount sheet wound in a roll. It may be used or newly placed in the vicinity of the eye mark or in a completely different position.

  Information patterns arranged at one or more positions may be determined by authenticity alone, or may be determined by combining multiple types of information patterns. As a preferred information pattern, a pattern that generates reflected light when irradiated with visible light or invisible light is selected. As a more preferable aspect, the information pattern may be created by separately or combining ordinary ink and fluorescent ink that emits reflected light having a predetermined wavelength.

  For example, an information pattern for authenticity determination is printed in advance on a roll-shaped printer paper with normal ink and fluorescent ink at one or more positions such as a conventional eye mark position or the vicinity of the eye mark position. What is necessary is just to judge authenticity by reading the reflected light which irradiated visible light and invisible light to the pattern.

  A preferable information pattern of the present invention is created using normal ink, fluorescent ink, or the like. As normal ink, various patterns may be printed at one or more predetermined positions, and authenticity may be determined based on whether or not a specific pattern can be recognized at a specific position. As for the fluorescent ink, the authenticity is determined by the presence or absence of reflected light irradiated with visible light or invisible light at one or more predetermined positions, whether or not a specific pattern can be recognized, and the like.

As the fluorescent ink used in the present invention, for example, a phosphor that emits light using near ultraviolet rays having a wavelength of about 200 to 400 nm as an excitation light source is used. For example, as the blue phosphor, BaMgAl ₁₀ O ₁₇ : Eu ²⁺ (BAM), BaMgAl ₁₀ O ₁₇ : Eu ²⁺ , Mn ²⁺ (BAM: Mn), Sr ₁₀ (PO ₄ ) ₆ Cl ₂ : Eu ²⁺ (SCA) , Sr ₂ Si ₃ O ₈ · 2SrCl ₂ : Eu ²⁺ , and green phosphors include LaPO ₄ : Ce ³⁺ , Tb ³⁺ (LAP), CeMgAl ₁₁ O ₁₉ : Tb ³⁺ (CAT), BaMgAl ₁₀ O ₁₇ : Eu ²⁺ , Mn ²⁺ (BAM: Mn), Y ₃ Al ₅ O ₁₂ : Ce ³⁺ (YAG: Ce) as the yellow phosphor, and (Sr, Mg) ₃ (PO ₄ ) ₂ : Sn ²⁺ as the orange phosphor. as the red ^{_{phosphor, Y 2 O 3: Eu 3+}} , La 2 O 2 S: Eu 3+, Sm 3+, LiEuW 2 O 8, deep red The _{phosphor, 3.5MgO · 0.5MgF 2 · GeO 2} : Mn 4+ and the like can be used.

  Since many fluorescent inks are white under visible light, if an information pattern is printed with white fluorescent ink so as to overlap with a conventional colored position detection mark, it is hardly noticeable. Therefore, it is effective in preventing a malicious third party from imitating the recommended paper and creating a fake. Further, if authenticity is determined by combining a plurality of types of information patterns, it is possible to prevent a malicious third party from imitating paper encouraged to create a fake.

  When this fluorescent ink is used, the light irradiating means may be any means that emits the fluorescent ink to the mark recording region including the information pattern made of the fluorescent ink, and emits near ultraviolet rays having a wavelength of about 200 to 400 nm. Examples include black light and ultraviolet light emitting diodes.

  As the authenticity judging means of the present invention, any means may be used as long as it judges authenticity based on information detected by a pattern reading means, more preferably an electromagnetic wave reading means. That is, more preferably, an electromagnetic wave including visible light and invisible light is irradiated to the mark recording area that is supposed to include the information pattern by the electromagnetic wave irradiation means, and a reflected wave or a transmitted wave is obtained from the mark recording area or obtained. In this case, the authenticity may be determined based on whether or not the reflected wave or transmitted wave of the information pattern predetermined by the electromagnetic wave reading means can be read.

  As the control means of the present invention, when it is determined that the printer paper is recommended by the authenticity determination means, it is determined that the printer paper is not recommended under a first predetermined control condition. The printer is driven under a predetermined second control condition. As a result, it is determined whether the paper is recommended or not recommended for use with a specific printer, and the recommended paper can be used under the recommended processing conditions.

  Note that the determination result of the authenticity determination means may be stored in a memory together with data such as a drive date, a drive time, and the number of issued sheets, and may be used during maintenance of the printing apparatus. Further, the memory itself may be installed on the same apparatus main body as the authenticity judging means, or a memory on a net line such as a cloud memory may be used. Furthermore, the recording data recorded in the memory may be shared with a company / department that performs maintenance, or may be delivered to the company / department that performs maintenance via a signal line such as an Internet line so as to be collectively managed.

  The first control condition of the present invention is a condition that is driven when it is determined that the printer paper is recommended by the authenticity determination means, and is printing on the recommended printer paper. In the case of printer paper with layers, the strength of adhesive strength has been confirmed, and since ink penetration has been confirmed, there is no damage even if printing is driven at a higher speed. Is guaranteed. For this reason, preferable first control conditions include those performed at a higher printing speed than the second control conditions.

  It should be noted that printing can be performed at the time of maintenance or when upgrading via the Internet line when there is confirmation that the higher printing speed can be achieved under the first control condition, or due to cases such as printing failure. The print speed may be adjusted so that the speed is further increased or the print speed is decreased.

  In addition, as the second control condition of the present invention, it is a condition that is driven in a predetermined case when it is determined that the printer paper is not encouraged, and is a printer paper that is not encouraged, Possible damage. For this reason, as a second control condition, it is considered to print at a printing speed much slower than normal printing so that there is no possibility of damage. Further, there are those that stop the driving of the printer before causing damage, and particularly those that stop the driving of the printer when a predetermined number of issued sheets is exceeded so as not to cause damage on the label printer.

  Further, regarding the adjustment of the printing speed according to the second control condition, the stop of driving, etc., the setting of the printing speed and the number of prints and the driving itself may be changed at the time of maintenance or updating via the Internet line. It should be noted that when the user's consent is obtained or the user situation is taken into consideration, the settings of the printing speed and the number of issued sheets and other printer driving settings themselves are made based on the data of the first control condition and the second control condition. It may be changeable.

  As described above, if the printer is driven under the first control condition determined in advance when light emission is detected by the fluorescence detection means, or under the second control condition determined in advance when it is not detected. Good. For multiple types of recommended printer paper, prepare multiple optimal conditions for each printer paper, and select from the optimal conditions by the control means according to the recognized printer paper. Also good.

  FIG. 1 is a plan view of a printer paper used in an embodiment of the authentication system of the present invention. FIG. 2 is a block diagram showing a configuration example of a reading apparatus used in one embodiment of the authentication system of the present invention. FIG. 3 is a flowchart of authenticity determination used in an embodiment of the authenticity determination system of the present invention.

  As shown in FIG. 1, the printer paper 10 used in this embodiment has a sticker-like label piece 12 continuously arranged in parallel at a predetermined interval on a label substrate 11 wound in a roll shape. Between the adjacent label pieces 12, a position detection eye mark-like information pattern 13 is printed on the label piece sticking surface side or the label piece sticking back surface side of the label base material 11. This information pattern 13 is printed in a specific pattern with fluorescent ink so as to overlap a normal position detection eye mark.

  As the fluorescent ink, a white phosphor is used under visible light that emits near ultraviolet light having a wavelength of about 200 to 400 nm as an excitation light source. Therefore, the information pattern 13 is recognized as a normal position detection eye mark at first glance. When the information pattern 13 is printed, the information pattern 13 is printed by performing authenticity determination with a reading device installed in the printing device. The reading device is installed in a conveyance path where the printer paper 10 of the printing device is conveyed.

  As shown in FIG. 2, the reading device 20 emits near ultraviolet rays with a black light 21 that irradiates invisible light as electromagnetic wave irradiation means to the printer paper 10 that is conveyed in a conveyance path shape. The reflected light pattern preprinted with the fluorescent ink in the information pattern 13 on the printer paper 10 is read by the CCD camera 22. The drive power supply 23 supplies power to the black light 21 and the CCD camera 22.

  The pattern read by the CCD camera 22 is determined by the authenticity determination unit 24 using the collation data of the recording unit 25. A control command is supplied to the control unit 26 of the printing apparatus according to the determination by the authenticity determination unit 24.

  More specifically, the position of the information pattern 13 is detected on the upstream side of the reading device 20, and the conveyance path and position of the information pattern 13 are supplied to the reading device 20. A CCD camera 22 is installed above the reading position of the reading device 20, and a black light 21 is installed obliquely with respect to the reading position. When the information pattern 13 reaches the reading position, the fluorescence emission pattern is read.

  As shown in FIG. 3, the authenticity determination unit 24 determines whether or not the fluorescence emission pattern is read when the information pattern 13 reaches the reading position. If it is determined that it has not been read, the printer paper is not encouraged, so an instruction is given to the control unit 26 of the printing apparatus to drive the printer under the second control condition.

  Further, when the fluorescence pattern is read when the information pattern 13 reaches the reading position, it is determined whether or not it is an existing pattern as the next step. The fluorescence emission pattern read by the CCD camera 22 is collated with collation data stored in the recording unit 25 in advance. If a pattern having the same pattern as the existing pattern is not confirmed, the printer paper is not recommended, so an instruction is given to the control unit 26 of the printing apparatus to drive the printer under the second control condition.

  If the same pattern as the existing pattern is confirmed, the recommended printer paper is used. Therefore, an instruction is given to the control unit 26 of the printing apparatus to drive the printer under the first control condition. The judgment ends.

  The first control condition is a condition that is driven when it is determined that the printer paper 10 is recommended by the authenticity determination unit 24. Since the printing is performed on the recommended printer paper 10, the strength of the adhesive strength is confirmed because the printer paper 10 has the seal-like label pieces 12 arranged and adhered on the label base material 11. In addition, ink penetration has been confirmed. For this reason, there is no damage even if printing driving is performed at the highest speed.

  On the other hand, the second control condition is a condition that is driven when it is determined that the printer paper 10 is not recommended. Since the printer paper 10 is not encouraged, for example, the label piece 12 may be peeled off from the label base material 11 in the printing process and stuck to the roller of the printing apparatus, which may damage the printing apparatus itself. is there. For this reason, the second control condition is that high-speed printing is not performed, and printing is performed slowly, or the printer is stopped when a predetermined number of prints is exceeded.

  Note that a plurality of optimum conditions for each printer paper among a plurality of types of recommended printer papers are prepared in the recording unit 25, and the control unit 26 selects from the plurality of optimum conditions according to the recognized printer paper. You may make it do.

  The present invention is a printer paper authenticity determination system that determines whether paper is recommended or not recommended for use with a specific printer, and allows the recommended paper to be used under the recommended processing conditions. As such, encouraged paper purchasers can use comfortably, and non-encouraged paper purchasers can have features that are not comfortable but can be used normally.

10 ... printer paper,
11 ... label substrate,
12 ... label pieces
13 ... Information pattern,
20... Reading device,
21 ... Black light,
22 ... CCD camera,
23: Driving power supply,
24 ... authenticity determination unit,
25 ... Recording section,
26: control unit,

Claims (5)

An authentication system for determining whether or not a printer paper printed by a printer is a recommended paper,
Pattern reading means for recognizing non-contact information patterns arranged at one or more predetermined positions on printer paper to be printed by the printer;
Authenticity determining means for determining authenticity based on information detected by the pattern reading means;
When it is determined that the printer paper is recommended by the authenticity determination means, a second predetermined value is determined when it is determined that the printer paper is not recommended under a first predetermined control condition. A printer paper authenticity determination system comprising: a control unit that drives the printer under control conditions. The pattern reading means for recognizing in a non-contact manner,
An electromagnetic wave irradiation means for irradiating an electromagnetic wave including visible light and invisible light to a mark recording region including an information pattern arranged at one or more predetermined positions of a printer paper printed by the printer;
The printer paper authenticity determination system according to claim 2, further comprising: an electromagnetic wave reading unit that reads a reflected wave or a transmitted wave of an information pattern by the electromagnetic wave irradiation unit and gives detected information to the authenticity determination unit. .   The printer paper authenticity determination system according to claim 1 or 2, wherein the first control condition is performed at a printing speed faster than the second control condition.   The authenticity of the printer paper according to any one of claims 1 to 3, wherein when the second control condition exceeds a predetermined number of issued sheets, the driving of the printer is stopped. Judgment system.   The printer paper authenticity determination system according to any one of claims 1 to 4, wherein the information pattern is formed of fluorescent ink that emits light when excited by irradiation with invisible light.

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