JP2007179372A - Combined barcode and method of reading barcode - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide combined barcodes or the like capable of expressing a large amount of information without increasing barcode print area. <P>SOLUTION: The combined barcodes have one barcode and the other barcode in each of which information is expressed by a plurality of bars. The plurality of bars forming the other barcode intersect at least a portion of the plurality of bars forming the one barcode, so that the other barcode and the one barcode overlap at least partially. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a composite bar code and a bar code for managing information such as product data and manufacturing data, which are used for a POS (Point Of Sales) system that comprehensively manages a distribution system and the like, and process management in product manufacturing. The present invention relates to a reading method.

  In the merchandise distribution field, a bar code reader (bar code scanner) optically reads a bar code attached to a merchandise, and manages merchandise installed at a management center or the like based on the read bar code information. A point-of-sales (POS) system is used to obtain information about various products such as product information such as the product name, product code, and price, and date information such as the expiration date of the product. In the product manufacturing field, manufacturing process management using a barcode is prevalent.

  In the bar code, information on products and information on manufacturing processes are coded as characters, and black data (black bars) and white data (white bars) are alternately combined. In a barcode reader that reads a barcode, the beam light emitted from a laser diode or the like is scanned on the barcode, the reflected light of this beam is received, and an electric signal corresponding to the width of black data and white data is received. Reading bar code information. As such a barcode format, JAN (Japan Article Number), ITF, CODE39, NW-7, and the like are known.

  By the way, there is a demand for increasing the amount of barcode information. In response to such a demand, there is a technique of increasing the amount of information by increasing the code length of the barcode. However, in this case, there is a problem that the printing area for printing the barcode on the product has to be increased according to the increased code length. In addition, when the barcode printing location (attached location) in the product is determined in advance and standardized from the design of the product as a whole, the printing area for printing the barcode may not be increased.

In order to solve such a problem, Patent Document 1 discloses a technique for coloring each bar of a barcode to increase the amount of information.
Japanese Patent Application No. 08-96097

  However, the color bar code described in Patent Document 1 needs to read each color and has a unique code system, so that a unique color bar code reader must be used, which is more widely used than before. An equipment base such as a bar code reader related to a monochrome bar code consisting of a black bar and a white bar cannot be used.

  Accordingly, the present invention has been made in view of the above problems, and does not require a special reading device, and can read a large amount of information without increasing the barcode printing area and a composite barcode and barcode reading. It aims to provide a method.

  In order to solve the above-mentioned problem, the invention according to claim 1 is characterized in that the plurality of bars having one bar code and another bar code representing information by a plurality of bars and constituting the other bar code. Is formed such that at least a part of the one bar code overlaps with at least a part of the plurality of bars constituting the one bar code. It is a barcode.

  According to this, since other barcodes are superimposed on one barcode so that the bars constituting each barcode intersect, a composite that can express a large amount of information without increasing the barcode printing area Bar code can be provided.

In order to solve the above-mentioned problem, the invention according to claim 2 is the composite barcode according to claim 1, wherein the plurality of bars constituting the other barcode constitute the one barcode. A composite barcode characterized by intersecting at least a part of a plurality of bars in a vertical direction.
According to this, even when other barcodes can be read by a reading device that reads one barcode, each code is orthogonal, so when reading one barcode, other barcodes are read. It is possible to realize a composite barcode that does not interfere.

  In order to solve the above problem, the invention according to claim 3 is the composite barcode according to claim 1 or 2, wherein the one barcode is composed of a black bar and a white bar, The information is read by an information reader that scans the one barcode by irradiating it with illumination light such as laser light, and the other barcode consists of a light yellow bar or a light red bar and a white bar. The other barcode information is a composite barcode that cannot be read by the information reader.

According to this, it is possible to more effectively prevent erroneous reading of other barcodes by the reading device that reads one barcode.
In order to solve the above-mentioned problem, the invention according to claim 4 is the composite barcode according to any one of claims 1 to 3, wherein the barcode has two other barcodes, and the other barcodes The information included in the code is a composite barcode characterized by IP address information.

  According to this, it is possible to realize a composite barcode in which other barcodes having IP address information are superimposed without increasing the printing area of one barcode.

  In order to solve the above problem, the invention according to claim 5 is characterized in that the one barcode has a center bar at the center of the one barcode, a right guard bar at the right side, and a left guard bar at the left side. The other barcode is disposed in a region between the center bar and the right guard bar of the one barcode and a region between the center bar and the left guard bar of the one barcode, respectively. In the barcode reading method of reading the IP address information of each other barcode in the composite barcode described in the above, the step of imaging the composite barcode, the left guide bar of the captured composite barcode, and the A plurality of bars located in a region between the center bars and intersecting the one barcode are identified as one other barcode; and A step of identifying a plurality of bars located in a region between the light guide bar and the center bar and intersecting the one barcode as the other barcodes, and each of the identified other barcodes And a bar code reading method for reading the IP address information with reference to a predetermined character corresponding to a bar pattern constituting the other bar code.

  According to this, since two other barcodes formed so as to overlap with one barcode among the composite barcode can be surely specified, each other barcode can be surely read.

  According to the present invention, since other barcodes are superimposed on one barcode so that the bars constituting each barcode intersect, a large amount of information can be expressed without increasing the barcode printing area. A composite barcode can be realized.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the accompanying drawings. This embodiment is an example in which the present invention is applied to a composite barcode including a barcode representing product information and a barcode representing IP address information assigned to a computer such as a product manufacturer or product seller. Indicates.

  The barcode is a JAN (Japan Article Number) code, UPC (Universal Product Code), EAN (European Product Number), etc., WPC (World Product Code), ITF, CODE39, NW-7, NW-7, and DEW are often used. .

  FIG. 1A shows a JAN code 1 as an example of one code of the present invention. This JAN code 1 has a left guard bar added to the left end, a center bar inserted in the middle portion, and a right guard bar added to the right end. JAN code 1 has a right data block representing 6 data characters between the right guard bar and the center bar, and a left data block representing 6 data characters between the center bar and the left guard bar. Have.

  JAN code 1 represents one character with two black bars and two spaces (white bars), and can represent a total of 13 characters. In the example shown in FIG. 1 (A), using 13 characters, country code (2 digits), manufacturer code (5 digits), product item code (5 digits) information and check digit (1 digit), respectively. Expressed with a combination of black and white bars of different widths. The information of the JAN code 1 is read by a JAN code information reader that scans the JAN code 1 by irradiating illumination light such as laser light. As the JAN code reader, various known readers such as a manual scan method (pen method, etc.), a CCD scan method (handy scanner, etc.), and a laser scan method can be used.

FIG. 1B shows an IP address code 2 as an example of another code of the present invention.
The IP address code 2 represents one character by four light yellow bars (or light red bars) and three spaces (white bars). In the example shown in the figure, information can be represented by a total of four characters.
By the way, the information of the JAN code 1 is read by the JAN code information reader as described above. The color is preferably a color that does not react to the JAN code information reader. Therefore, when the information of JAN code 1 is read by irradiating the JAN code 1 with red laser light, the color of the bar of the IP address code 2 is light yellow, light red and white as in this embodiment. It is preferable to configure.

  2A shows a data code table of JAN code 1, and FIG. 2B shows a data code table of IP address code 2.

  In JAN code 1, each character of the left data block is an even parity character or an odd parity character, and the numerical value corresponding to the combination of the even (EVEN) parity and the odd (ODD) parity is the 13th digit (check digit). To do. For the other 12 characters, the bar pattern is determined based on the table of FIG.

  Similarly for the IP address code 2, the bar pattern corresponding to each character is determined based on the data code table of FIG. The IP address code 2 was created based on a conventionally known NW-7 data code. Specifically, in order to express IP address information, a bar pattern corresponding to characters “E” and “F” can be added to a conventionally known NW-7 data code to express a hexadecimal number. Configured.

[Create composite barcode]
Next, a procedure for creating a composite barcode 3 comprising JAN code 1 and IP address code 2 will be described with reference to FIGS.

  3A is an explanatory diagram of the composite barcode creation system according to the present embodiment, FIG. 3B is a sequence chart showing a composite barcode creation procedure, and FIG. 4 is a diagram of the computer 10 according to the composite barcode creation system. It is a block diagram which shows the example of an outline structure.

  The computer 10 creates JAN code 1 and IP address code 2 based on the JAN and IP address, creates composite barcode data based on these, and prints the composite barcode 3 on the printer.

This will be specifically described below.
First, the configuration and functions of the computer 10 will be described.
As shown in FIG. 4, the computer 10 is a control composed of a CPU (Central Processing Unit) having a calculation function, a working RAM (Random Access Memory), a ROM (Read Only Memory) storing various data and programs, and the like. Unit 11, a storage unit 12 including an HD for storing and storing (storing) various data and information such as a barcode creation profile, and an external device connection unit 13. The storage unit 12 and the external device connection unit 13 are connected to each other via a bus 14.

The control unit 11 includes a CPU (not shown), a working RAM, a ROM that stores various control programs and data, an oscillation circuit, and the like. Based on an operation signal from an operation unit (not shown), the operation signal Control information for controlling each of the constituent members to realize an operation corresponding to the operation information included in the control information is generated, and the control information is output to the corresponding constituent member via the bus 14 to output each of the constituent components. Control the operation of members.
The external device connection unit 13 receives input data from input means such as a keyboard and a mouse and takes it into the computer 10, and also includes a video card built in the computer 10, a VGA cable, a DVI cable, a BNC cable, etc. For sending an instruction signal to the monitor.

  As shown in FIG. 3B, first, the operator inputs JAN by operating an input means such as a keyboard / mouse connected to the external device connection unit 13 of the computer 10. Then, the input JAN is converted into JAN code 1 based on the data code table of JAN code 1 (see FIG. 2A).

  Subsequently, the operator operates an input unit such as a keyboard / mouse connected to the external device connection unit 13 of the computer 10 to input an IP address. Then, after the input IP address is converted into a hexadecimal number, it is converted into the IP address code 2 based on the data code table of the IP address code 2 (see FIG. 2B). Since the IP address is usually composed of 8 characters, one IP address is expressed by two IP address codes (IP address code 2A and IP address code 2B).

  This will be specifically described with reference to FIG. FIG. 5 is an explanatory diagram of the composite barcode creation process.

If the IP address input by the operator is “10.255.255.255”, this is converted to “0A .FF. FF. FF” when converted to hexadecimal.
Of these, the upper 4 digits “0”, “A”, “F”, and “F” are represented by the IP address code 2A, and the lower 4 digits “F”, “F”, “F”, and “F” are IP address code 2B.

  Then, composite barcode data is created by superimposing the IP address code 2A and the IP address code 2B on the JAN code 1, and transmitted to the printer (see FIG. 3B). In the composite barcode 3 shown in the lower part of FIG. 5, the bars of the IP address code 2A and the IP address code 2B are shown in white so as not to be confused with the JAN code 1.

  The printer receives the composite barcode data transmitted from the computer 10 and prints the composite barcode 3 on a print medium such as paper or a sticker.

  When the IP address code 2A and the IP address code 2B are superimposed on the JAN code 1, the bars constituting the JAN code 1 and the bars constituting the IP address codes 2A and 2B are overlapped. . In particular, in order to prevent each other from interfering with the reading of the code information, the bars constituting the JAN code 1 and the bars constituting the IP address codes 2A and 2B are overlapped so as to intersect (orthogonally) in the vertical direction It is preferable to match.

  Further, as shown in FIG. 5, it is desirable that the IP address codes 2A and 2B be within the size of the JAN code 1. This is because it is possible to provide a composite barcode 3 capable of expressing a larger amount of information in the same area without increasing the printing area of the JAN code 1 already prepared for a product or the like.

As described above, the composite barcode 3 can be created only by a general-purpose computer and printer without using a special barcode creation device or the like.
The composite barcode 3 can express a larger amount of information without increasing the print area of the JAN code 1.

[Read composite barcode information]
Subsequently, a procedure for reading information of the composite barcode 3 will be described.

  Here, as shown in FIG. 6, a configuration in which the user takes a composite barcode 3 using the camera provided in the mobile phone 20 and reads the information of the IP address codes 2A and 2B of the composite barcode 3 will be described. . Since the information of the JAN code 1 of the composite barcode 3 can be read using a conventionally known JAN code reader as described above, the description thereof is omitted. Note that the dotted line in FIG. 6 schematically shows the shooting range of the camera provided in the mobile phone 20.

  The configuration and functions of the mobile phone 20 will be described with reference to a block diagram showing a schematic configuration example of the mobile phone 20 shown in FIG.

  As shown in the figure, the mobile phone 20 is composed of a CPU (Central Processing Unit) having a calculation function, a working RAM (Random Access Memory), a ROM (Read Only Memory) storing various data and programs, and the like. A control unit 21, a storage unit 22 composed of an HD for storing and storing various data and information, a camera 23 comprising a CCD for photographing the composite barcode 3, a push button, various functions The operation input unit 24 includes buttons and the like. The control unit 21, the storage unit 22, the camera 23, and the operation input unit 24 are connected to each other via a bus 25.

  The control unit 21 includes a CPU (not shown), a working RAM, a ROM that stores various control programs and data, an oscillation circuit, and the like. Based on an operation signal from an operation unit (not shown), the operation signal Control information for controlling each of the constituent members to realize an operation corresponding to the operation information included in the control information is generated, and the control information is output to the corresponding constituent member via the bus 25 to output the respective constituent members. Control the operation of members.

  FIG. 8 is a flowchart showing the IP address code information reading process of the composite barcode 3 in the control unit 21 of the mobile phone 20. The process shown by the flowchart is stored in advance in a ROM (not shown) in the control unit 21. The program is executed based on the control of the control unit 21 based on the program being stored.

  This processing is performed when the user of the mobile phone 20 captures the composite barcode 3 attached to the product or the like with the camera 23 or after the composite barcode 3 is captured by the user. It is executed by instructing to read information by operating the operation input unit 24.

First, the black bar of JAN code 1 is recognized, and the size, size, etc. of composite bar code 3 are recognized (step S10).
Subsequently, when the right guard bar, left guard bar, and center bar of JAN code 1 can be recognized (step S11: Yes), the left guard bar to the center bar and the center bar to the right guard bar are recognized, respectively, and the IP address code. 2A and 2B are divided (step S13).

Specifically, a bar code consisting of a plurality of bars located between the left guard bar and center bar of JAN code 1 and intersecting with JAN code 1 is IP address code 2A, and the right guard bar and center bar of JAN code 1 A bar code consisting of a plurality of bars located between and crossing the JAN code 1 is defined as an IP address code 2B.
On the other hand, if the right guard bar, left guard bar, and center bar of JAN code 1 cannot be recognized (step S11: No), a message such as “reading error” is displayed on the display screen of the mobile phone 20, etc. An error process such as presenting an error is performed (step S12), and the process is terminated.

  Then, one of the divided IP address codes 2A is scanned in the direction of JAN code 1, that is, the direction perpendicular to the direction of the right guard bar, the left guard bar and / or the center bar, as shown in FIG. With reference to the data code table of IP address code 2, the information is read twice, and it is determined whether or not the reading results of the first data A (1) and the second data A (2) match (step S1). S14, S15). Specifically, it is determined whether or not the result of reading data A (1) matches the result of reading data A (2).

As a result of the determination, when the reading results of the data A (1) and the data A (2) do not match (step S15: No), error processing is performed (step S12), and the processing is terminated. ) And the read result of data A (2) (step S15: Yes), the other divided IP address code 2B is similarly scanned in a direction orthogonal to the direction of JAN code 1. Referring to the data code table of IP address code 2 shown in FIG. 2 (B), the information is read twice, and the first data B (1) and the second data B (2) are read. Is determined (steps S16 and S17). Specifically, it is determined whether or not the result of reading data B (1) matches the result of reading data B (2).
As a result of the determination, if the reading results of the data B (1) and the data B (2) do not match (step S17: No), error processing is performed (step S12), and the processing is terminated. ) And the reading result of data B (2) match (step S17: Yes), the process proceeds to step S18.

In step S14, the IP address code 2A is read twice as data A (1) and A (2), but the same part on the same IP address code 2A may be read twice, or Different locations on the same IP address code 2A may be read twice. The same applies when the IP address code 2B in step S16 is read as data B (1) and B (2).
In step S18, the IP address codes 2A and 2B obtained by reading in steps S14 and S16 are identified with reference to the data code table of IP address code 2 shown in FIG. The identified character is converted into a decimal system, and IP address information is generated (step S18). The data code table of the IP address code 2 may be stored in the storage unit 22 in advance, and is configured to be acquired from another computer by connecting to the Internet or the like via an antenna or the like provided in the mobile phone 20. Also good.
Then, based on the generated IP address information, connection to the Internet is made (step S19), and the process ends.

  As described above, the composite bar code 3 may use a conventionally known JAN code reader for the JAN code 1 information, and the IP address code 2 information (IP address information) Since the image can be picked up and read by a general-purpose CCD camera such as a camera, information can be read at low cost without requiring a special bar code reader.

  In the present embodiment, the composite barcode 3 is captured by the mobile phone 20 and the IP address information is acquired. However, the present invention is not limited to this, and the composite is performed using a CCD camera or the like. The barcode 3 may be imaged, the captured image data may be stored in a personal computer or the like, and the IP address code information reading process of the composite barcode 3 may be performed by a control unit such as the personal computer.

[Other Embodiments of Composite Barcode]
The composite barcode 3 in the above-described embodiment is configured by the JAN code 1 and the two IP address codes 2A and 2B, but the composite barcode of the present invention is not limited to this.

Hereinafter, another embodiment of the composite barcode will be described with reference to FIG. In addition, in each composite barcode shown in FIG. 9, in order to prevent confusion with one barcode, the bar of another barcode is shown in white.
FIG. 9A shows a composite barcode 3S according to another embodiment.

  The composite barcode 3S is composed of one barcode 1S and another barcode 2S, and is created by superimposing another barcode 2S on a part of one barcode 1S. In such a case, a portion of one barcode 1S that does not have the other barcode 2S (indicated by a dotted frame in the figure) is a conventionally known manual scanning method (pen method, etc.), CCD scanning method (handy scanner, etc.). The information of one barcode 1S can be read by irradiating and scanning with illumination light such as laser light by various reading devices such as a laser scanning method.

  In this case, since the other barcode 2S does not hinder the reading of the one barcode 1S, the color of the bar constituting the other barcode 2S can be black or white.

  The composite barcode of the present invention may be a composite barcode 3T as shown in FIG.

  As shown in the figure, the composite barcode 3T is composed of one barcode 1T and another barcode 2T, and a bar constituting one barcode 1T and a bar constituting another barcode 2T. You may comprise so that it may cross | intersect without orthogonally crossing.

  In the case where the other barcodes are configured to have one piece of information (for example, IP address) as in the above-described embodiment, that is, as shown in FIG. When the code 3U is composed of one barcode 1T and the other barcodes 2UA and 2UB, the other barcodes 2UA and 2UB are configured to be smaller in size than the one barcode 1T. Then, another barcode 2UA is arranged in the area from the left guard bar to the center bar of one barcode 1U, and another barcode 2UB is arranged in the area from the light guard bar to the center bar of one barcode 1U. Thus, the other barcode 2UA and the other barcode 2UB can be reliably divided and recognized.

  When the bar constituting one barcode 1T and the bar constituting the other barcode 2T are crossed without being orthogonal to each other, when reading the information of the other barcode 2T, The data A (1) and A (2) are scanned several times in the direction of one barcode 1T, that is, in the direction intersecting with the direction of the right guard bar, the left guard bar and / or the center bar. ), Data B (1) and B (2), and reading may be repeated with trial and error until the respective reading results match.

(A) It is explanatory drawing of the JAN code 1. FIG. (B) It is explanatory drawing of the IP address code 2. FIG. (A) Data code table of JAN code 1. (B) Data code table of IP address code 2. (A) It is explanatory drawing of the composite barcode production system concerning this embodiment. (B) It is a sequence chart which shows a composite barcode preparation procedure. It is a block diagram which shows the example of a schematic structure of the computer 10 concerning a composite barcode production system. It is explanatory drawing of a composite barcode preparation process. 3 is an image diagram when reading a composite barcode 3; FIG. 2 is a block diagram illustrating a schematic configuration example of a mobile phone 20. FIG. 4 is a flowchart showing an IP address code information reading process of the composite barcode 3 in the control unit 21 of the mobile phone 20. It is explanatory drawing of the composite barcode concerning other embodiment.

Explanation of symbols

1 JAN code 1S, 1T, 1U One code 2 (2A, 2B) IP address code
2S, 2T, 2U (2UA, 2UB) Other codes 3 Composite bar code 10 Computer 11 Control unit 12 Storage unit 13 External device connection unit 14 Bus 20 Mobile phone 21 Control unit 22 Storage unit 23 Camera 24 Operation input unit 25 Bus

Claims (5)

It has one barcode and other barcodes that represent information by multiple bars,
The plurality of bars constituting the other barcode intersect with at least a part of the plurality of bars constituting the one barcode, and the other barcode and at least a part of the one barcode A composite barcode characterized by being formed to overlap. The composite barcode of claim 1,
The composite bar code, wherein the plurality of bars constituting the other barcode intersect at least a part of the plurality of bars constituting the one barcode in a vertical direction. The composite barcode according to claim 1 or 2,
The one bar code is composed of a black bar and a white bar, and the information of the one bar code is read by an information reading device that scans the bar code with illumination light such as a laser beam,
The other barcode includes a light yellow bar or a light red bar and a white bar, and the information of the other barcode cannot be read by the information reading device. The composite barcode according to any one of claims 1 to 3,
Two other barcodes,
The information of each of the other barcodes is IP address information. The one barcode has a center bar at the center of the one barcode, a right guard bar on the right side, and a left guard bar on the left side, and an area between the center bar and the right guard bar of the one barcode. 5. The IP address of each of the other barcodes in the composite barcode according to claim 4, wherein the other barcode is disposed in a region between a center bar and a left guard bar of the one barcode. In a barcode reading method for reading information,
Imaging the composite barcode;
A plurality of bars that are located in an area between the left guide bar and the center bar of the imaged composite bar code and intersect the one bar code are specified as one of the other bar codes; and Identifying a plurality of bars located in a region between the light guide bar and the center bar and intersecting the one barcode as the other barcode;
A barcode reading method for reading the IP address information with reference to each identified other barcode and a predetermined character corresponding to a pattern of a bar constituting the other barcode.

Images