JP5076847B2 - Bar code reader - Google Patents

Description

The present invention relates to a barcode reader for reading a barcode, and more particularly to a barcode reader suitable for barcode reading used in a magnetic tape library apparatus or the like.

  The bar code is used as identification information for specifying an article or the like, and a bar code reader is used to read the bar code. In a magnetic tape library apparatus that uses a bar code for cartridge identification, a cell that houses a magnetic tape cartridge is attached to a housing called a rocker, and these cells are generally arranged on the left and right when the apparatus is viewed from the front. A magnetic tape drive is disposed on the back side of the apparatus housing. In the rocker, a magnetic tape cartridge accommodated in the cell is mounted on an arbitrary magnetic tape drive or a robot for transporting to an arbitrary cell. A bar code label is attached to the magnetic tape cartridge. The robot has an operation area that can access all cells in the rocker, magnetic tape drives, and the like, and a barcode reader is mounted in the operation area. The bar code labels attached to all the magnetic tape cartridges are read at the position where the bar code reader is conveyed to the front of all the magnetic tape cartridges.

Regarding such barcode reading, Patent Document 1 includes a plurality of cells for storing cartridges in a library device in which cartridges having barcode labels attached to the back surface, side surfaces, or both the back surface and side surfaces can be used together. A rotary cell drum is installed, and a mirror is installed on each cell wall of the cell drum to guide the laser beam from the barcode reader to a label affixed to one side of the cartridge. Reading the printed label is disclosed.
Japanese Patent Laid-Open No. 11-185329 (summary, FIG. 1 etc.)

  As described above, regarding the barcode reading, in the magnetic tape library apparatus, an arbitrary magnetic tape cartridge is selected by reading the barcode label attached to the back surface of the magnetic tape cartridge and managing the volume information. The barcode label reading timing is when the apparatus diagnosis process is completed after the apparatus power is turned on, or when the magnetic tape cartridge is inserted from the outside when the apparatus is in an idle state.

  By the way, since several tens to several hundreds of magnetic tape cartridges are stored in the magnetic tape library apparatus, the time (inventory time) for reading the bar code label attached to each magnetic tape cartridge is the start time of the apparatus. Influence.

  In a magnetic tape library apparatus, a configuration is known in which cells are arranged in two directions, a magnetic tape cartridge is accommodated in each cell, and a magnetic tape drive is arranged in one direction facing a door of a housing. In such a magnetic tape library apparatus, when reading barcode labels, it is necessary to position the robot in front of all magnetic tape cartridges and read the barcode labels, so the barcode reader faces in two directions in the apparatus. It will be necessary. In such a case, a mechanism for rotating the robot on which the barcode reader is mounted is required, time is generated due to the rotation, and the inventory time of the barcode label of each magnetic tape cartridge becomes long.

  Regarding such requirements and problems, Patent Document 1 does not have any disclosure or suggestion, and there is no disclosure or suggestion about a configuration or the like that solves it.

  Therefore, an object of the present invention is to shorten the inventory processing time with respect to barcode reading.

Another object of the present invention is to shorten the inventory processing time by reading a plurality of bar codes without carrying a bar code reader.

To achieve the above object, captured by the barcode reader, the rotation control of the variable turning mirror, the light emission control of a light source selected from a plurality of light sources, using the bar code to read the bar code image to the CCD camera Therefore, it is possible to read a plurality of barcodes at the opposite positions and the like without changing the position of the barcode reader, thereby shortening the barcode inventory processing time.

To achieve the above object, according to a first aspect of the present invention, there is provided a barcode reader, a light source that irradiates light to a barcode, a CCD camera that captures an image of the barcode, and the barcode. comprising a lens for magnifying the image, and availability rotary mirror, a movable mirror control unit for controlling so that the movable mirror and the first state or the second state by changing the angle of the movable mirror, the movable when the mirror is in the first state, the first of the bar code image is reflected on the movable mirror through the first of said lens, said imaged in a CCD camera, the previous SL movable mirror second In this state, the second barcode image is reflected by the movable mirror via the second lens different from the first lens, and is captured by the CCD camera. That.

According to such a configuration, the movable mirror is changed by Ri angles to the movable mirror control unit, is controlled to a first state or second state, the first state is the first bar code image first Since the second barcode image is imaged on the CCD camera through the second lens in the second state, the first and second barcodes are changed by changing the angle of the movable mirror. Images can be acquired, and inventory processing time can be shortened.

In order to achieve the above object, in the barcode reader, preferably, a reading unit that reads information represented by the barcode based on the barcode image captured by the CCD camera, and the barcode reader A rotation control unit that rotates the bar code reader when the reading result by the reading unit is an error, and the movable mirror control unit is used for the reading. Further, the angle of the movable mirror may be changed so that the barcode image enlarged by the lens different from the lens is picked up by the CCD camera.

  According to such a configuration, information representing a barcode is read from the barcode image, and if the read result is an error, the barcode reader is rotated to cause the CCD camera to capture the barcode image through a different lens. Therefore, accurate barcode data can be acquired and the reliability of inventory operation can be improved.

  In order to achieve the above object, in the barcode reader, the first barcode and the second barcode may be arranged so as to face each other with the barcode reader interposed therebetween. According to such a configuration, the first and second barcodes facing each other are at a position displaced by 180 degrees across the barcode reader, so that the movable mirror described above can be mounted without rotating the barcode reader. By inverting, it is possible to cause the CCD camera to capture a barcode image from the first and second barcodes facing each other, and to shorten the barcode inventory processing time.

In order to achieve the above object, a second aspect of the present invention is a barcode reader, which is a light source that irradiates light to a barcode, a CCD camera that captures an image of the barcode, and the barcode. comprising a lens for magnifying the image, and availability rotary mirror, a movable mirror control unit for controlling so that the movable mirror and the first state or the second state by changing the angle of the movable mirror, the movable when the mirror is in the first state, the first of the bar code image is reflected on the movable mirror is imaged on the CCD camera through the lens, when pre-Symbol movable mirror of the second state Is that the second barcode image is reflected by the movable mirror and is picked up by the CCD camera through the lens.

According to such a configuration, the movable mirror is changed by Ri angles to the movable mirror control unit, is controlled to a first state or second state, the first state the movable mirror first bar code image Since the second barcode image is imaged on the CCD camera through the movable mirror in the second state, the first and second barcode images are acquired by changing the angle of the movable mirror. The inventory processing time can be shortened.

In order to achieve the above object, a third aspect of the present invention is a bar code reader, a first light source for irradiating light to the first bar code, and light for the second bar code. a second light source for emitting a first and a CCD camera for capturing an image of the second bar code, and a lens for enlarging an image of said first and second bar code, said first and second imaging the light guide member an image of the bar code is incident on the CCD camera, the only the first light source to emit light in the case of imaging the image of the first bar code, the image of the second barcode the second comprising only a light source control unit for so that control is emitting light source, the first bar code by light is irradiated to the first bar code from the first light source in the case of The image of the light guide member and Captured in the CCD camera via a serial lens, the second of said second bar code image by light is irradiated to the second barcode light-guiding member and the lens from the light source Through the CCD camera.

According to such a configuration, since the barcode that is the light emission target is selected by causing one light source selected from the first and second light sources to emit light, the barcode selected by the light emission control of the light source is selected. Since the barcode image is captured by the CCD camera through the light guide member, a plurality of barcode images can be acquired by the light emission control of the light source, and the inventory processing time can be shortened.

In order to achieve the above object, in the barcode reader, preferably, the first and second light sources may be positioned above the light guide member, and a barcode image from the barcode is transferred to the CCD camera. It suffices if the light guide member is installed above the guiding light guide member, and the above object can be achieved by such a configuration.

  As described above, the following effects can be obtained by using the present invention.

  (1) By selecting the barcode to be read from multiple barcodes with different installation positions by selecting the movable mirror angle and light source selection, and taking the barcode image on the CCD camera, shorten the inventory processing time. Can do.

  (2) Since it is possible to read multiple barcodes with different installation directions only by changing the angle of the movable mirror, there is no need to change the position of the barcode reader, so the time required to change the position can be reduced and the inventory processing time Can be shortened.

  (3) Bar code reader mounting device For example, the startup time of a magnetic tape library device can be shortened.

Other objects, features, and advantages of the present invention will become clearer with reference to the accompanying drawings and each embodiment.

[First Embodiment]

  The first embodiment will be described with reference to FIG. FIG. 1 is a diagram showing an example of a magnetic tape library apparatus using a bar code reader. The magnetic tape library apparatus shown in FIG. 1 is an example, and the present invention is not limited to such a configuration.

  The magnetic tape library apparatus 2 is an example of a device on which the barcode reader 4 is mounted, and is a means for storing the magnetic tape cartridge 6, transporting it, and reading / writing data.

  The barcode reader 4 is a barcode information reading unit that is mounted on the robot 8 that transports the magnetic tape cartridge 6 and reads information from the barcode on the barcode label 10 attached to the magnetic tape cartridge 6. The magnetic tape cartridge 6 is a cartridge that stores a magnetic recording tape as a recording medium, and the bar code displayed on the bar code label 10 indicates identification information of the magnetic tape cartridge 6.

  The plurality of storage shelves 12 and 14 are storage means for the magnetic tape cartridge 6. Each storage shelf 12 and 14 is provided with a plurality of cells 16 as storage storage spaces for storing and storing the magnetic tape cartridges 6. The cells 16 in the storage shelves 12 and 14 are arranged in a matrix in a plurality of rows and a plurality of columns. A plurality of relative flags 18 representing the relative positions of the robot 8 and the cell 16 are installed on the storage shelves 12 and 14.

  The robot 8 is a means for transporting the magnetic tape cartridge 6. The controller 20 controls the robot 8 to carry out the magnetic tape cartridge 6 from the cell 16, transport it to a magnetic tape drive device 22 at a predetermined position, The cartridge 6 is taken out and the magnetic tape cartridge 6 is carried into the cell 16.

  The controller 20 is a control means for the bar code reader 4, the robot 8, and the plurality of magnetic tape drive devices 22, and is linked with the host computer 24, and in accordance with an instruction to read or write data from the host computer 24, the bar code reader The predetermined magnetic tape cartridge 6 is selected based on the reading of the bar code by 4, the conveyance control of the robot 8, and the data reading or writing control of the magnetic tape drive device 22 are executed.

  The magnetic tape drive device 22 is means for writing or reading data to or from the magnetic recording tape of the magnetic tape cartridge 6 under the control of the controller 20. In this embodiment, four magnetic tape drive devices 22 are used. It is configured.

  Also, CAS (Cartridge Access Station) 26 and 28 are connected to the controller 20. These CAS 26 and 28 are means for taking in and out the magnetic tape cartridge 6 with respect to the magnetic tape library apparatus 2. It is executed by the CAS 26 or 28, and its entry / exit is notified to the controller 20 from the CAS 26, 28. A host computer 24 is connected to the controller 20 via an I / F card 30, and the I / F card 30 is an interface unit that exchanges data with the host computer 24. The host computer 24 is an external control means for the magnetic tape library device 2, and selects a magnetic recording tape of the magnetic tape cartridge 6 stored in the magnetic tape library device 2, and writes data to the magnetic recording tape or stores data. Read.

  Next, the relationship between each storage shelf 12, 14 or magnetic tape drive device 22 and the barcode reader 4 will be described with reference to FIGS. FIG. 2 is a diagram showing a schematic plan configuration of the magnetic tape library apparatus, and FIG. 3 is a diagram showing a rotating mechanism of the hand unit. The configuration of the magnetic tape library apparatus shown in FIGS. 2 and 3 is an example, and the present invention is not limited to such a configuration. 2 and 3, the same parts as those in FIG. 1 are denoted by the same reference numerals.

  As shown in FIG. 2, a magnetic tape drive device 22 is installed in the housing 32 of the magnetic tape library device 2 so as to face the front door 34, and the storage shelves 12 and 14 and the CAS 26 described above are arranged on the left and right sides thereof. 28 is installed. In this embodiment, the storage shelf 12 is installed on the left side, and the storage shelf 14 is installed on the right side. The robot 8 is installed in the space 36 between the storage shelves 12 and 14. The robot 8 is provided with an X base 40 for moving the hand portion 38 in the X axis direction, Y bases 42 and 44 for moving in the Y axis direction, and a Z base 46 for moving in the Z axis direction. Yes. The hand unit 38 is a gripping mechanism unit for gripping the magnetic tape cartridge 6. A barcode reader 4 is installed on the upper surface of the hand unit 38. Accordingly, the barcode reader 4 installed in the hand unit 38 is installed in the space 36 of each cell 16 of the storage shelves 12 and 14, moves with the hand unit 38, and its position is changed.

  As shown in FIG. 3, the hand portion 38 is mounted on the X base 40 with a swivel mechanism portion 48 interposed. The swivel mechanism portion 48 is a turning mechanism for turning the hand portion 38 on the X base 40 under the control of the controller 20, and the barcode reader 4 mounted on the hand portion 38 can turn together with the hand portion 38. . Therefore, the swivel mechanism 48 and the controller 20 constitute a rotation controller that rotates the barcode reader 4.

  Next, FIG. 4 is referred to for the barcode. FIG. 4 is a diagram illustrating an example of a magnetic tape cartridge. The magnetic tape cartridge and the bar code shown in FIG. 4 are examples, and the present invention is not limited to such a configuration. In FIG. 4, the same parts as those in FIG.

  The magnetic tape cartridge 6 is a casing 49 that stores a magnetic recording tape, and in this embodiment, is a flat rectangular parallelepiped. A label affixing unit 50 is set at a predetermined position on the front surface of the magnetic tape cartridge 6, and the bar code label 10 is affixed to the label affixing unit 50. An identification code display section 52 and a barcode display section 53 are set on the barcode label 10, an identification code consisting of symbols is displayed on the identification code display section 52, and a barcode is displayed on the barcode display section 53. The bar code represents data representing unique information for identifying the magnetic recording tape accommodated in the housing 49.

  In the bar code display unit 53, first and second bar code reading units 54 and 56 are set up and down as bar code reading areas, and between the bar code reading unit 54 and the bar code reading unit 56. The mirror inversion region 58 is set. The bar code readers 54 and 56 are bar code reading areas, and the mirror inversion area 58 is an area for inverting the movable mirror.

  In this case, since the barcode readers 54 and 56 are set to the same barcode, the barcode reader 4 can read the necessary identification data by either one. Therefore, in the first embodiment, the mirror inversion region 58 is a part for switching a movable mirror 74 (FIG. 5) described later from the first state to the second state. By reversing the movable mirror 74 in the mirror inversion region 58, the bar code label 10 of the magnetic tape cartridge 6 existing in the cell 16 at the opposite position of the storage shelves 12 and 14 on the left and right can be read simultaneously. For example, after reading the first barcode from the barcode reading unit 54 or 56 on the storage shelf 12 side (first state), the movable mirror 74 is reversed and the barcode reading unit 54 on the storage shelf 14 side is reversed. Or the second barcode can be read from 56.

  Next, the barcode reader 4 will be described with reference to FIGS. FIG. 5 is a view showing the structure of the barcode reader, and FIG. 6 is a view showing the barcode reader in which the movable mirror is in an inverted state. The bar code reader shown in FIGS. 5 and 6 is an example, and the present invention is not limited to such a configuration. 5 and 6, the same parts as those in FIG. 1 or 4 are denoted by the same reference numerals.

  As shown in FIG. 5, the barcode reader 4 has a case portion 62 and illumination LEDs (Light Emitting Diodes) 64 and 66 mounted on the upper surface of the circuit board 60. The case part 62 is composed of a dark box that prevents unnecessary light from entering. The case unit 62 is provided with a CCD (Charge Coupled Device) camera 68, first and second optical systems 70 and 72, and a movable mirror 74. The CCD camera 68 is an imaging unit that captures a barcode image of a barcode that is a subject, and is mounted on the circuit board 60 to convert the barcode image into an electrical signal.

  The optical systems 70 and 72 are means for converging the reflected light (barcode image) obtained from the barcode display unit 53 and focusing the barcode on the barcode. The lens 78 optically enlarges the barcode image acquired from the barcode.

  The movable mirror 74 is light guide means installed on the optical axes 80 and 82 of the optical systems 70 and 72, and the angle can be changed around the axis 84. The angle of the movable mirror 74 is controlled by the mirror controller 86, and when the barcode is read from the barcode reader 54 or 56 of the barcode label 10L on the left side (first state), it is shown by the solid line in FIG. Thus, when the movable mirror 74 is set and the barcode is read from the barcode reader 54 or 56 of the barcode label 10R on the right side (second state), FIG. 6 (broken line in FIG. 5) The movable mirror 74 is set as shown in FIG.

  The illumination LEDs 64 and 66 are an example of a light source that irradiates light to a barcode that is a subject, and each light emission and light amount are controlled by a light source control unit 88. In this case, as shown by the solid line in FIG. 5, when reading the barcode from the barcode reading section 54 or 56 of the left barcode label 10L (first state), the illumination LED 64 is caused to emit light, As shown in FIG. 6 (broken line in FIG. 5), when reading the barcode from the barcode reading section 54 or 56 of the right barcode label 10R (second state), the illumination LED 66 is caused to emit light. Get the reflected light.

  Next, the controller 20 and the barcode reader 4 of the magnetic tape library apparatus 2 will be described with reference to FIG. FIG. 7 is a block diagram illustrating an example of a controller and a barcode reader. The configuration shown in FIG. 7 is an example, and the present invention is not limited to such a configuration. In FIG. 7, the same parts as those in FIG. 1 or FIG.

  The controller 20 is provided with a main controller 90 as a first controller and a robot controller 92 as a second controller. The main controller 90 is used for data transmission / reception and processing with the host computer 24, and the robot controller 92 is used for control of the robot 8 and bar code reader 4.

  The main controller 90 includes a computer linked to the host computer 24, and includes, as an example, a processor 94, a RAM (Random-Access Memory) 96, and a storage unit 98. The processor 94 is an OS in the storage unit 98. Based on the execution of the application program, data write / read control for the magnetic recording tape is executed. The RAM 96 is used as an information processing work area executed by the processor 94. The storage unit 98 includes a program storage unit 100 and a data storage unit 102. The program storage unit 100 stores various programs such as an OS and application programs. The data storage unit 102 stores a data table, and data Is stored.

  The robot controller 92 is a means for controlling the robot 8 in cooperation with the main controller 90 and for controlling the barcode reading of the barcode reader 4. The robot controller 92 includes an XYZ axis drive unit 114, a swivel drive. The unit 115, the picker driving unit 116, and the position detecting unit 117 are connected. The XYZ axis drive unit 114 is a means for moving the robot 8 on the X axis, Y axis, or Z axis. The XYZ axis drive unit 114 has the movement and direction of the robot 8 depending on the cell position and the drive position. As a result of the determination, a necessary control output is added from the robot controller 92. The swivel drive unit 115 is a unit that drives a swivel mechanism unit that is a unit for turning the hand unit 38, and the picker drive unit 116 is a unit that drives the picker of the hand unit 38 to open and close. The movement, turning, and opening / closing of the robot 8 in the XYZ-axis directions are controlled by a motor. The position detection unit 117 detects the movement, turning, and opening / closing positions, and the position information is added to the robot controller 92. The relative flag 18 described above is picked up by the CCD camera 68 of the barcode reader 4 and the detected flag image is taken into the robot controller 92 to detect the relative position between the robot 8 and each cell 16 of the storage racks 12 and 14. And corrected.

  Further, the barcode reader 4 is equipped with a computer linked with the main controller 90. As an example, the barcode reader 4 includes a logic unit 118, a RAM 120, and a storage unit 122. The logic unit 118 includes a mirror rotation driving unit 124, an LED. The drive unit 126 and the CCD camera 68 are connected, and a drive output is given from the LED drive unit 126 to the illumination LEDs 64 and 66.

  The logic unit 118 is a control unit that receives an instruction from the robot controller 92 and executes control such as rotation control of the movable mirror 74, imaging of the CCD camera 68 and imaging data capture control, illumination control of the illumination LEDs 64 and 66, and the like. In addition, an information reading unit that reads information representing a barcode based on the barcode image captured by the CCD camera 68, and captures the barcode image captured by the CCD camera 68. The RAM 120 temporarily stores command data for the logic unit 118, a captured bar code image, and the like. A data table is set in the storage unit 122, and barcode data and the like are stored. Therefore, the above-described mirror control unit 86 (FIG. 5) includes the logic unit 118 and the mirror rotation driving unit 124, and the light source control unit 88 (FIG. 5) includes the logic unit 118 and the LED driving unit 126. It is.

  Next, with reference to FIG. FIG. 8 is a diagram showing a barcode reading process. The barcode reading method shown in FIG. 8 is an example, and the present invention is not limited to such a configuration. In FIG. 8, the same parts as those in FIGS. 1 and 5 are denoted by the same reference numerals.

  As shown in FIG. 8, the reading process includes a barcode label 10L as a first barcode on the left storage shelf 12 side and a barcode as a second barcode on the right storage shelf 14 side. FIG. 8 is an example of a method of continuously reading the label 10R, and in FIG. 8, (A), (B), and (C) are barcode reading steps of the barcode reading unit 56 from the left storage shelf 12, (D), (E), and (F) show the barcode reading process of the barcode reading unit 54 from the right storage shelf 14.

  The bar code reader 4 exists in the space 36 between the storage shelves 12 and 14 and moves from the lower side to the upper side as indicated by the arrows to scan the bar code label 10L. In this case, the movable mirror 74 is set to the solid line angle shown in FIG. That is, it is the first state. In this state, as shown in FIGS. 8A, 8 </ b> B, and 8 </ b> C, the barcode reading unit below the barcode label 10 </ b> L of the magnetic tape cartridge 6 in the cell 16 of the left storage shelf 12. A scan at 56 is performed and the bar code is read. The first barcode image is acquired by the CCD camera 68 of the barcode reader 4.

  The bar code is read by scanning with the bar code reading unit 56, and the movable mirror 74 is inverted in the mirror inversion region 58 and switched to the inversion state as shown in FIG. This is the second state. In this state, as shown in FIGS. 8D, 8 </ b> E, and 8 </ b> F, the barcode reading unit 54 on the upper side of the barcode label 10 </ b> R of the magnetic tape cartridge 6 in the cell 16 of the right storage shelf 14. Scanning is performed, and the barcode is read. A second barcode image is acquired by the CCD camera 68 of the barcode reader 4.

  As described above, after the scanning of the barcode label 10L, the barcode of each barcode label 10L, 10R can be continuously read by the scanning of the barcode label 10R through the inversion of the movable mirror 74. The left and right barcodes can be read by the reversal control of the movable mirror 74, and it is not necessary to move the barcode reader 4 to each barcode label 10 so as to face each other, so that the barcode reading operation can be simplified. It is done.

  Next, the barcode inventory process will be described with reference to FIG. FIG. 9 is a flowchart showing a processing procedure of inventory processing. The processing procedure shown in FIG. 9 is an example, and the present invention is not limited to such processing.

  This inventory process is an example of a barcode reading method. As shown in FIG. 9, when the inventory process is started, the robot 8 is moved to a predetermined position for reading the barcode label 10 (step S1). At this movement position, the robot 8 is moved upward (step S2), and the process A is executed. The process A includes the light emission control of the illumination LEDs 64 and 66, the rotation control of the movable mirror 74, the determination process of the barcode decoding result of the read barcode display unit 53, and the like.

  In this case, when proceeding to the processing A, the illumination LED 64 on the left side is turned on (step S3). Reading of the barcode label 10L is started from the left storage shelf 12 side (step S4), and the read barcode image data is stored in the data table in the storage unit 122 (step S5). After storing this data, it is determined whether or not the robot 8 has moved by a certain distance (step S6). If it has not moved by a certain distance (No in step S6), the processes of steps S4, S5, and S6 are performed. Repeatedly, if it has moved by a certain distance (Yes in step S6), the movable mirror 74 is rotated (step S7). This is preparation for reading the barcode label 10R from the storage shelf 14 side on the right side.

  When the movable mirror 74 is inverted, the right illumination LED 66 is turned on (step S8). Reading of the barcode label 10R is started from the right storage shelf 14 side (step S9), and the read barcode image data is stored in a data table in the storage unit 122 (step S10). After the data is stored, it is determined whether or not the robot 8 has moved a certain distance (step S11). If the robot 8 has not moved by a certain distance (No in step S11), the processes in steps S9, S10, and S11 are performed. Repeatedly, if it has moved by a certain distance (Yes in step S11), the movable mirror 74 is rotated (step S12).

  Then, it is determined whether or not all the readings of the cells 16 in one row in the storage shelves 12 and 14 have been completed (step S13), and if all the rows have not been completed (No in step S13), steps S3 to S3 are performed. If the process up to S12 is repeated and all the columns have been read (Yes in step S13), the data stored in the data table is decoded (step S14). The decoded results are collected for each barcode label 10 (step S15), and it is determined whether the decoded results match (step S16). If the decoded results do not match (No in step S16), the retry process is executed. (Step S17).

  If the decoding results match (Yes in step S16), the robot 8 is moved to the cell 16 side of the next row of the storage shelves 12 and 14 (step S18), and the robot 8 is moved downward (step S19). ), The process A described above is executed (step S20), and it is determined whether or not the barcode labels 10 of all the columns have been read (step S21). If the barcode labels 10 of all the columns have not been read (step S21). Step S21, No), Steps S18, S19, S20, and S21 are repeatedly executed. If the barcode labels 10 of all the columns have been read (Yes in Step S21), the inventory process is terminated.

  Next, FIG. 10 will be referred to regarding the barcode reading retry process. FIG. 10 is a flowchart showing the procedure for retrying barcode reading. The processing procedure shown in FIG. 10 is an example, and the present invention is not limited to such processing.

  The retry processing procedure is processing when the barcode reading result of the barcode reader 4 is an error, and is an example of specific processing contents of step S17 in FIG.

  Therefore, as shown in FIG. 10, the robot 8 is positioned at a location where the decoding results do not match (step S31). If the decoding results do not match, a read error is expected. This read error defines an event such as the data read by the barcode reader 4 could not be decoded into an arbitrary character string. Further, when positioning the robot 8, it was determined whether an error occurred in the left or right optical system 70 or 72 (FIG. 5) from the table, or an error occurred on the upper side or the lower side of the barcode label 10. What is necessary is just to position in the direction opposite to a direction. For example, when an error occurs on the upper side of the barcode label 10 using the left optical system 70, the retry operation may be performed using the right optical system 72 and positioned below the barcode label 10.

  Therefore, among the illumination LEDs 64 and 66, the illumination LED on the side where the decoding results do not match is turned on (step S32). Reading of the barcode label 10 is started (step S33), and it is determined whether or not the barcode label 10 has been read normally (step S34). If the barcode label 10 is normally read (Yes in step S34), the retry process is terminated.

  If the barcode label 10 cannot be read normally (No in step S34), the illumination LED on the surface side where the decoding results do not match is turned off, and the illumination LED on the opposite surface side is turned on (step S35). The eight hand portions 38 are rotated (step S36). In this case, if there is a failure in the illumination LED 64 or 66 on the surface side where the reading error occurred, one optical system 70 or 72, etc., the error can be corrected by using the illumination LED on the opposite surface and the other optical system. It is possible to narrow down the suspected place that occurred.

  Reading of the barcode label 10 is started (step S37), and it is determined whether or not the barcode label 10 has been read normally (step S38). If the barcode label 10 is read normally (Yes in step S38), the retry process is terminated. If the barcode label 10 cannot be read normally (No in step S38), the robot 8 is moved upward by a predetermined movement width n [mm] (step S39). In this case, it is also assumed that the barcode label 10 is dirty. Therefore, if this movement process is performed, a process of reading the dirty part can be performed, and the reliability of barcode reading is improved.

  Then, the illumination LED is turned off, and the illumination LED on the opposite side is turned on (step S40). The robot 8 is rotated (step S41), reading of the barcode label 10 is started (step S42), and after reading the barcode label 10, it is determined whether or not the barcode label 10 has been normally read (step S43). That is, if it can be read back to the same surface as when the error occurred, it has been found that there is a problem in the reading position of the bar code label 10, and accurate bar code reading can be performed.

  If the barcode label 10 is normally read (Yes in step S43), the retry process is terminated. If the barcode label 10 cannot be read normally (No in step S43), the number of movements of the robot 8 is counted, and it is determined whether or not the robot 8 has moved a predetermined number of times [step S44]. If there is no movement of m [times] (No in step S44), the process returns to step S35, and the processing of steps S35 to S44 is executed. If there is movement of m [times] (Yes in step S44), an abnormality occurs. End. In this case, maintenance is required.

  The features and advantages of the barcode inventory process or retry process of the barcode reader 4 described above are listed below.

  (1) In this embodiment, a movable mirror 74 is disposed on the imaging surface of the CCD camera 68 between the lenses 76 and 78 of the barcode reader 4 mounted on the robot 8, and is a barcode that is a subject directly facing. When reading the label 10, the movable mirror 74 can be inverted to capture a barcode image from each barcode label 10.

  (2) In such a configuration, the reflective surface is moved to the rear surface of the barcode reader 4 via the movable mirror 74 and switched to the optical axis 80 or 82, so that the barcode reader 4 is moved without moving the barcode reader 4 The bar code can be read from the bar code label 10 in the area.

  (3) In this case, the optical system 70, 72 is installed in the barcode reader 4, and the barcode labels 10 before and after the barcode reader 4 are read only by changing the angle of the movable mirror 74 on the CCD camera 68. Can do.

  (4) With such a configuration, the structure of the barcode reader 4 can be simplified, the dimensional accuracy and the focal length can be matched, and the barcode reading accuracy can be improved.

  (5) Since the barcode reader 4 is mounted on the hand portion 38 of the robot 8 having the rotation mechanism (swivel mechanism portion 48), if the barcode label 10 cannot be read due to the inventory operation, the hand portion 38 of the robot 8 is The barcode label 10 can be read again (retry) by rotating it, and it can be determined whether the suspicious part of the error is on the barcode label 10 or on the barcode reader 4 side. In this case, it becomes easy to identify the suspected part at the time of retry, and the maintenance time can be shortened.

  (6) The rotation mechanism of the robot 8 is a means for transporting the magnetic tape cartridge 6 to the magnetic tape drive device 22, but for reading the barcode label 10, the barcode reader 4 is faced in one direction. In this case, since the barcode label 10 on the back side can be read, if the barcode reader 4 that can read the barcode label 10 at the same time is configured, the rotation operation of the robot 8 for reading the barcode becomes unnecessary, and the inventory operation can be simplified. Figured.

  (7) In the conventional mechanism and processing for reading the bar code label 10, the movement of the bar code reader 4 is indispensable. However, according to the above configuration, the bar code label 10 can be read simultaneously at the front and rear. Therefore, the movement of the barcode reader 4 for reading the barcode label 10 is reduced, and the time for the inventory processing can be reduced by half while simplifying the inventory processing.

  (8) Since the barcode reader 4 does not need to face the surface portion of the cell 16 of the storage racks 12 and 14 of the magnetic tape library apparatus 2, the barcode label 10 on the back side can be read in one direction. The inventory processing time can be shortened, and the startup time of the magnetic tape library apparatus 2 equipped with such a barcode reader 4 can be shortened.

  The symbol height of the barcode label 10 can be set to, for example, about 11 to 13 [mm]. If the barcode label 10 is read a plurality of times within the range and recognized as the same volume, the controller 20 Register the volume of the barcode label 10 as the target. Therefore, the volume registration does not require the use of all the symbol heights of the bar code label 10. For example, the lower half of the symbol height is assigned to the left bar code label 10L (FIG. 8) and the upper half is assigned. If assigned to the right barcode label 10R (FIG. 8), both the left and right barcode labels 10 can be quickly read when the barcode reader 4 moves in the vertical direction.

[Second Embodiment]

  The second embodiment will be described with reference to FIGS. 11 and 12. FIG. 11 is a diagram showing the structure of the barcode reader according to the second embodiment, and FIG. 12 is a diagram showing the barcode reader in which the movable mirror is in an inverted state. The bar code reader shown in FIGS. 11 and 12 is an example, and the present invention is not limited to such a configuration. 11 and 12, the same parts as those in FIGS. 1 and 5 are denoted by the same reference numerals.

  In the barcode reader 4 of this embodiment, as shown in FIG. 11, an optical system 71 is installed on the ceiling portion of the case unit 62 installed on the upper surface of the circuit board 60, and the optical system 71 is positioned immediately below the optical system 71. A CCD camera 68 is installed, and a movable mirror 74 is installed on the optical axis 81 of the optical system 71. The movable mirror 74 is installed outside the case unit 62, and the angle can be changed around the shaft 84, and the angle is controlled by the mirror control unit 86. The movable mirror 74 is set to an angle indicated by a solid line in FIG. 11 when reading the left barcode label 10L (first state), and when reading the right barcode label 10R (second state). The angle shown in FIG. 12 (broken line in FIG. 11) is set. Other configurations are the same as those of the first embodiment.

  When reading the left barcode label 10L (first state), the illumination LED 64 is caused to emit light, and when reading the right barcode label 10R (second state), the illumination LED 66 is caused to emit light. Each reflected light is obtained. The barcode images from the barcode labels 10L and 10R are enlarged by the lens 77 of the optical system 71 and captured by the CCD camera 68.

  According to such a configuration, the barcode reader 4 can be constructed by unifying the optical system 71, and the barcode can be continuously read from the left and right barcode labels 10L, 10R by switching the tilt of the movable mirror 74. Can shorten the barcode inventory processing time. The retry process (FIG. 10) can be similarly performed.

[Third Embodiment]

  A third embodiment will be described with reference to FIGS. 13 and 14. FIG. 13 is a diagram showing the structure of a barcode reader according to the third embodiment, and FIG. 14 is a diagram showing the barcode reader in a barcode reading state in the reverse direction. The bar code reader shown in FIGS. 13 and 14 is an example, and the present invention is not limited to such a configuration. 13 and 14, the same parts as those in FIGS. 1 and 11 are denoted by the same reference numerals.

  In the barcode reader 4 according to this embodiment, as shown in FIG. 13, a single optical system 71 is installed on the ceiling portion of the case unit 62 installed on the upper surface of the circuit board 60. The point that the CCD camera 68 is installed at the position is the same as in the second embodiment. In this embodiment, a prism 128 is installed on the optical axis 81 of the optical system 71 as an example of a light guide means outside the case portion 62.

  In this case, the illumination LEDs 64 and 66 are light sources for irradiating light to the barcode labels 10L and 10R that are subjects, and are means for selectively irradiating light to the barcode to be imaged. The amount of light is controlled by the light source controller 88.

  In this case, when the left barcode label 10L is read (first state), the illumination LED 64 is turned on and the illumination LED 66 is turned off, and when the right barcode label 10R is read (second state). As shown in FIG. 14, the illumination LED 66 is turned on and the illumination LED 64 is turned off, so that the reflected light of the illuminated barcode labels 10L and 10R is taken into the optical system 71, as shown in FIG. The barcode image is enlarged by the lens 77 and picked up by the CCD camera 68.

  According to such a configuration, the prism 128 is used to read the left and right barcode labels 10L and 10R, and this prism 128 can guide the light incident from the left and right through the lens 77 to the CCD camera 68. . For this reason, since both the barcode images of the barcode labels 10L and 10R are input, if the illumination LED 64 or 66 in the direction to be read is selectively turned on, only the barcode label 10L or 10R to be read is displayed. Illumination is performed and only necessary information (image) is selected. The bar code label 10L or 10R on the side where the illumination LED is turned off cannot obtain the amount of light necessary for imaging, so that the bar code image in that case becomes unclear and the bar code label 10L or 10R on the surface to be read. Image selection can be easily performed by selectively lighting the illumination LEDs 64 and 66.

  When the movable mirror 74 is used, the front and rear barcode labels 10L and 10R can be read by changing the angle depending on the reading direction. However, in the case of the prism 128, a reversing mechanism such as the movable mirror 74 is unnecessary. It is. Information on the bar code label 10L or 10R in an arbitrary direction can be acquired only by turning on / off the LED serving as a light source, and the structure of the bar code reader 4 can be simplified. The retry process (FIG. 10) can be similarly performed.

[Fourth Embodiment]

  The fourth embodiment will be described with reference to FIGS. 15 and 16. FIG. 15 is a diagram showing the structure of a barcode reader according to the fourth embodiment, and FIG. 16 is a diagram showing the barcode reader in a barcode reading state in the reverse direction. The bar code reader shown in FIGS. 15 and 16 is an example, and the present invention is not limited to such a configuration. 15 and 16, the same parts as those in FIGS. 1 and 13 are denoted by the same reference numerals.

  In the barcode reader 4 according to this embodiment, the illumination LED 65 is installed in the rotation mechanism 130 disposed above the prism 128 that is a light guide member, and the irradiation direction is changed by the LED rotation control unit 132. It is configured to switch according to The lighting LED 65 is turned on or off by the light source controller 88. Other configurations are the same as those of the third embodiment.

  In this case, when the left barcode label 10L is read (first state), the rotation mechanism 130 is rotated to set the irradiation direction to the left direction, thereby causing the illumination LED 65 to emit light, and the right barcode label 10L. When the barcode label 10R is read (second state), the illumination LED 65 is caused to emit light by rotating the rotating mechanism 130 and setting the irradiation direction to the right. The reflected light of the barcode label 10L or 10R irradiated with light is taken into the optical system 71, and a barcode image in a desired direction is magnified by the lens 77 and captured by the CCD camera 68.

  According to such a configuration, the illumination LED 65 includes the rotation mechanism 130 to switch the irradiation direction, and the CCD camera 68 can capture the barcode image from the barcode labels 10L and 10R in the desired direction. In this case, if a highly directional LED is used as the illumination LED 65 and is arranged on the upper part of the barcode reader 4, the barcode labels 10L and 10R, which are left and right subjects, can be illuminated, and the barcode to be read Intrusion of light from other than the label into the CCD camera 68 can be prevented, and the resolution of the captured barcode image can be increased. The retry process (FIG. 10) can be similarly performed.

[Fifth Embodiment]

  17 and 18 are referred to for the fifth embodiment. FIG. 17 is a diagram illustrating the structure of a barcode reader according to the fifth embodiment, and FIG. 18 is a diagram illustrating the barcode reader in which the movable mirror is in a rotating state. The bar code reader shown in FIGS. 17 and 18 is an example, and the present invention is not limited to such a configuration. 17 and 18, the same parts as those in FIGS. 1 and 5 are denoted by the same reference numerals.

  In the barcode reader 4 according to this embodiment, as shown in FIG. 17, an optical system 134 is installed on the side wall of the case portion 62 mounted on the upper surface of the circuit board 60, and the optical system 136 has an optical axis 136. A mirror 138 is provided on the imaging surface of the CCD camera 68 on the circuit board 60 to guide the barcode image by reflection. The barcode image is magnified by the lens 140 and captured by the CCD camera 68.

  In addition, a movable mirror 74 as a light guiding means for guiding the barcode image of the barcode label 10R on the side opposite to the optical system 134, that is, the right side to the optical system 134, and a plurality of mirrors 142, 144, 146 as a mirror group. Is installed. The angle of the movable mirror 74 can be changed by the shaft 84, and the angle is controlled by the mirror controller 86.

  Therefore, when reading the left barcode label 10L (first state), the movable mirror 74 is set at an angle that is parallel or substantially parallel to the optical axis 136, as shown by a solid line in FIG. When the right barcode label 10R is read (second state), as shown by a solid line in FIG. 18, an angle, for example, 45 degrees or approximately 45 degrees is set to the movable mirror 74. In addition, when the light source controller 88 controls the light emission and the light amount of the illumination LEDs 64 and 66 and reads the left barcode label 10L (first state), the illumination LED 64 emits light and the right bar When the code label 10R is read (second state), the illumination LED 66 is caused to emit light, and each reflected light is obtained. The reflected light of each barcode label 10L, 10R is selectively taken into the optical system 134, and a barcode image in a desired direction is magnified by the lens 140 and imaged by the CCD camera 68. The retry process (FIG. 10) can be similarly performed.

[Sixth Embodiment]

  FIG. 19 is referred to for the sixth embodiment. FIG. 19 is a flowchart illustrating a processing procedure of inventory processing according to the sixth embodiment. The processing procedure shown in FIG. 19 is an example, and the present invention is not limited to such processing.

  The inventory processing according to this embodiment is an example of a barcode reading method. As shown in FIG. 19, when the inventory processing is started, the robot 8 is moved to a predetermined position for reading the barcode label 10 ( Step S51). At this movement position, the robot 8 is moved upward (step S52), and the process B is executed. The process B includes processes such as light emission control of the lighting LEDs 64 and 66 and movement control of the robot 8. This process B may include a determination process of the decoding result of the barcode read by the barcode reading units 54 and 56 as in the process A (FIG. 9).

  In this case, when proceeding to the process B, the lighting LED 64 on the left side is turned on (step S53). Reading of the bar code label 10L is started from the left storage shelf 12 side (step S54), it is determined whether or not the robot 8 has been moved by a certain distance (step S55), and if not moved by a certain distance (step S55). The process of steps S54 and S55 is repeated and the movement is continuously executed to reach a certain distance. If it has moved by a certain distance (Yes in step S55), the right illumination LED 66 is turned on (step S56). Reading of the barcode label 10R is started from the right storage shelf 14 side (step S57), and it is determined whether or not the robot 8 has moved a certain distance (step S58). If the process of steps S57 and S58 is repeated and moved by a certain distance (Yes in step S58), whether or not all the readings of the cells 16 in one row on the storage shelves 12 and 14 have been completed. (Step S59), if all the columns are not completed (No in Step S59), the processing from Step S53 to Step S59 is repeated, and if all the columns are read (Yes in Step S59). Then, it is determined whether or not there is a reading error (step S60), and if there is an error (Yes in step S60), retry processing is performed. Row (step S61).

  If there is no reading error (No in step S60), the robot 8 is moved to the cell 16 side of the next row of the storage shelves 12 and 14 (step S62), and the robot 8 is moved downward (step S63). Then, the process B described above is executed (step S64), it is determined whether or not the barcode labels 10 of all the columns have been read (step S65), and if the barcode labels 10 of all the columns have not been read (step S65). If the process of steps S62, S63, and S64 is repeatedly executed and the barcode labels 10 of all the columns have been read (Yes in step S65), the inventory process is terminated.

  The retry processing procedure of step S61 is processing when the barcode reading result of the barcode reader 4 is an error, and the processing shown in the flowchart of FIG. 10 may be executed.

[Other Embodiments]

  In the first embodiment, the bar code reader 4 is rotated together with the hand unit 38, but the bar code reader 4 is separated from the hand unit 38 by interposing a rotation mechanism unit between the bar code reader 4 and the hand unit 38. The reader 4 may be configured to rotate under the control of the controller 20.

  In the fifth embodiment (FIG. 17), since the imaging surface of the CCD camera 68 is installed in a direction orthogonal to the optical axis 136, a mirror 138 as a light guide means is required. If the CCD camera 68 is installed so that the center axis of the imaging surface coincides with the optical axis 136 of the system 134, the mirror 138 becomes unnecessary.

  In the above-described embodiment, the barcode reading time of the movable mirror 74 and the inversion timing may be set by the detection signal pulse output from the position detection unit 117 or the output of the timing means triggered by the start of barcode reading. In addition, the inversion timing of the movable mirror 74 may be any time point when the reading of one barcode is completed or when a predetermined time elapses.

In the above embodiment, as the first state, the barcode of the barcode label 10L of the magnetic tape cartridge 6 in the left storage shelf 12 is a barcode image obtained from the first barcode and the first barcode. Is the first barcode image and the second state, the barcode of the barcode label 10R of the magnetic tape cartridge 6 in the right storage shelf 14 is the barcode image obtained from the second barcode and the second barcode. Is the second barcode image, but in the first state, the barcode on the right storage shelf 14 side is the first barcode, the first barcode image, and in the second state, the left storage shelf The 12-side barcode may be the second barcode and the second barcode image.

  Next, with reference to FIGS. 20, 21, 22, 23, and 24, an embodiment of the barcode reader will be described. 20 is a perspective view showing a magnetic tape library device on which a barcode reader is mounted, FIG. 21 is a perspective view showing an example of a robot, FIG. 22 is a perspective view showing an example of a hand unit, and FIG. FIG. 24 is an exploded perspective view showing a bar code reader mounted on the hand unit. The robot, the hand unit, and the barcode reader shown in FIGS. 20 to 24 are examples, and the present invention is not limited to such a configuration. 20 to 24, the same parts as those in FIGS. 1 and 2 are denoted by the same reference numerals.

  As shown in FIG. 20, the magnetic tape library apparatus 2 has storage shelves 12 and 14 installed on the left and right side surfaces of a housing 32, and a plurality of cells 16 are installed in the storage shelves 12 and 14. CAS 26, 28 is installed on the front side of each storage shelf 12, 14, and is connected to the controller 20 (FIG. 1) described above. An upper robot 8U and a lower robot 8B are installed as the above-described robot 8 in an interval area 36 formed between the storage shelves 12 and 14. The upper robot 8U and the lower robot 8B are configured independently and function as the robot 8 described above by being controlled by the controller 20.

  The robot 8 is an example of the upper robot 8U or the lower robot 8B. As shown in FIG. 21, the X base 40 is mounted on the Z base 46, and a swivel mechanism 48 is interposed on the X base 40 to provide a hand portion. 38 is mounted. A Z-axis motor 148 is mounted on the Z base 46 as driving means in the Z-axis direction, and the rotation of the Z-axis motor 148 is transmitted to the pulley 152 via the timing belt 150, and this rotational force causes the X base 40 to be Slide on the base 46 in the Z-axis direction.

  An X-axis motor 154 is mounted on the X base 40 as driving means in the X-axis direction, and the rotation of the X-axis motor 154 is transmitted to the pulley 158 via the timing belt 156, and this rotational force causes the hand unit 38 to move to the X Slide on the base 40 in the X-axis direction.

  A picker 160 is attached to the hand portion 38 as a gripping means for gripping the magnetic tape cartridge 6 (FIG. 1), and a swivel motor 162 is mounted as a driving means for the swivel mechanism portion 48, and a picker motor 164 is mounted as a driving means for the picker 160. Has been. When the rotational force of the swivel motor 162 is applied to the swivel mechanism portion 48, the hand portion 38 can be rotated in a desired direction, and the picker motor 164 is rotated and controlled so that the picker 160 is moved forward and backward, the magnetic tape cartridge 6 is gripped, or the like. Release is performed.

  As shown in FIGS. 22 and 23, the hand unit 38 includes a rectangular casing 166. On the upper surface of the casing 166, a plurality of LEDs are arranged at the edge on the picker 160 side. The LED group for illumination 640 and the LED group for illumination 660 in which a plurality of LEDs are arrayed are arranged on the edge opposite to the picker 160 side. The illumination LED groups 640 and 660 correspond to the illumination LEDs 64 and 66 of the first embodiment (FIG. 5).

  The case unit 62 of the barcode reader 4 is mounted on the upper surface of the housing unit 166 of the hand unit 38. The case unit 62 incorporates a CCD camera 68 and optical systems 70 and 72 (FIG. 5). Further, a mirror rotation motor 168 of the mirror control unit 86 is mounted adjacent to the case unit 62 using a support frame 169, and the movable mirror 74 (FIG. 5) is rotated by the rotation of the mirror rotation motor 168, so that a desired one is obtained. Set the angle to.

  When the upper case 170 and the lower case 172 are separated from the case portion 62 of the barcode reader 4 and the internal structure on the lower case 172 side is exposed, optical systems 70 and 72 are mounted in the front-rear direction as shown in FIG. In addition, a movable mirror 74 is rotatably installed around the shaft 84 at an intermediate portion thereof, and a rotational force is applied to the movable mirror 74 from a mirror rotation motor 168.

  Next, the controller 20, the I / F card 30 and the barcode reader 4 will be described with reference to FIG. FIG. 25 is a block diagram illustrating an example of a controller, an I / F card, and a barcode reader. The configuration shown in FIG. 25 is an example, and the present invention is not limited to such a configuration. 25, the same symbols are added to the same portions as FIG.

  A main controller 90 and a robot controller 92 are installed in the controller 20, and a control system for the I / F card 30 and the barcode reader 4 is connected to the main controller 90.

  The main controller 90 includes an MPU (Micro Processor Unit) 174, a logic unit 176, and a PCI (Peripheral Component Interconnect) control unit 178. The MPU 174 is an example of the processor 94 (FIG. 7) described above. The MPU 174 is connected to a flash memory 180, an SRAM (Static Random-Access Memory) 182 and a logic unit 184, and provided with LAN ports 186 and 188. The LAN port 190 is also provided in the PCI control unit 178. The flash memory 180 constitutes a storage unit 98 (FIG. 7). The logic unit 184 includes a CPLD (Complex Programmable Logic Device).

  The logic unit 176 is configured by, for example, an LSI (Large Scale Integration) such as FPGA (Field Programmable Gate Arrays), and the logic unit 176 is connected to an SRAM 192 and an I / O control unit 194 as storage means. First, second, and third interface portions 196, 198, and 200 are provided. The interface unit 196 is an interface unit that transmits and receives drive signals to / from an external device, and includes a receiver (RV) 202 and a driver (DV) 204.

  The interface unit 198 is means for transmitting and receiving data to and from the robot controller 92 via the cable 205, and includes a driver (DV) 206 and a receiver (RV) 208.

  The interface unit 200 is means for transmitting / receiving data to / from the barcode reader 4 via a cable 210, and includes a driver (DV) 212 and a receiver (RV) 214.

  The robot controller 92 includes a DSP (Digital Signal Processor) 216, a logic unit 218, and an interface unit 220. The DSP 216 is processing means for processing signals transmitted and received between the main controller 90 and the robot controller 92. The DSP 216 is connected via the interface unit 220 via the interface unit 198 of the main controller 90 and the cable 205. It is connected. The interface unit 220 includes a driver (DV) 222 and a receiver (RV) 224.

  The logic unit 218 is a unit that converts the control signal from the DSP 216 into a drive signal and transmits the position detection signal of the robot 8 to the DSP 216. For example, the logic unit 218 may be configured by an LSI such as an FPGA.

  The X-axis drive signal, Y-axis drive signal, Z-axis drive signal, swivel output signal, and picker drive signal output from the logic unit 218 are amplified by amplifiers (AMP) 226, 228, 230, 232, and 234, respectively. , Y-axis motor 236, Z-axis motor 148, X-axis motor 154, swivel motor 162, and picker motor 164. The Y-axis motor 236, the Z-axis motor 148, the X-axis motor 154, the swivel motor 162, and the picker motor 164 indicate the movement position, rotation position, or grip / release position of the magnetic tape cartridge 6 based on the rotation detection. Tachometers (238), 240, 242, 244, 246 are installed as means for detecting, that is, the above-described position detecting unit 117 (FIG. 7), and each detection signal is applied to the logic unit 218, and the robot Used for control.

  The barcode reader 4 includes a logic unit 118, an SRAM 248, a PROM (Programmable Read-Only Memory) 250, and an interface unit 252. The logic unit 118 is a means for controlling the lighting LED groups 640 and 660 to be turned on / off, the imaging of the CCD camera 68, the capture of the barcode image, and the like, and is configured by, for example, an FPGA. A main controller 90 is connected to the logic unit 118 via an interface unit 252 via a cable 210. The interface unit 252 includes a receiver (RV) 256 and a driver (DV) 258. The SRAM 248 corresponds to the RAM 120 (FIG. 7), and the PROM 250 corresponds to the storage unit 122 (FIG. 7).

  The output signal of the CCD camera 68 is amplified by an amplifier (AMP) 260, converted into a digital signal by an analog / digital converter (ADC) 262, taken into the logic unit 118, and transmitted to the main controller 90.

  The I / F card 30 is a connection unit of the host computer 24 (FIG. 1), and includes a logic unit 264, an SRAM 266, and an I / F chip 268. The logic unit 264 is connected to the PCI control unit 178 of the main controller 90, and data transmission / reception with the host computer 24 is executed. The logic unit 264 may be configured by an LSI such as an FPGA.

  Next, with reference to barcode reading, FIG. 26 and FIG. 27 are referred to. FIG. 26 is a diagram illustrating a case where the left barcode label is read, and FIG. 27 is a diagram illustrating a case where the right barcode label is read. The configurations shown in FIGS. 26 and 27 are examples, and the present invention is not limited to such configurations. 26 and 27, the same parts as those in FIG.

  As shown in FIG. 26, when reading the left barcode label 10L, the reflecting surface of the movable mirror 74 is directed to the barcode label 10L side, and the angle θ is positioned at 135 degrees, for example. Thereby, the light transmitted through the lens 76 of the optical system 70 is bent in the orthogonal direction by the movable mirror 74 and projected onto the projection surface of the CCD camera 68. Accordingly, the barcode image on the barcode label 10L side is picked up by the CCD camera 68.

  As shown in FIG. 27, when reading the right barcode label 10R, the reflecting surface of the movable mirror 74 is directed to the barcode label 10R side, and the angle θ is positioned at 45 degrees, for example. Thereby, the light transmitted through the lens 78 of the optical system 72 is bent in the orthogonal direction by the movable mirror 74 and projected onto the projection surface of the CCD camera 68. Therefore, the barcode image on the barcode label 10R side is picked up by the CCD camera 68.

  In this case, the hand unit 38 is moved upward at a constant speed v [m / s], and when the half position of the left barcode label 10L has passed (that is, past the barcode reading unit 56, the mirror inversion region). 58 (FIG. 5)}, the movable mirror 74 is rotated, and control is performed so that the light incident from the right barcode label 10R is projected onto the CCD camera 68.

  In this way, the scanning of the hand unit 38, the reversal of the movable mirror 74, and the capture of the barcode image by the CCD camera 68 are continuously performed, so that the lower half of the label, that is, the bar, is displayed on the left barcode label 10L. The barcode is read from the code reading unit 56, and the barcode label 10R on the right side can selectively read the barcode from the upper half of the label, that is, the barcode reading unit 54.

  Next, the barcode inventory operation will be described with reference to FIG. FIG. 28 is a diagram showing an inventory operation of barcode labels. The configuration shown in FIG. 28 is an example, and the present invention is not limited to such a configuration. 28, the same symbols are added to the same portions as FIG.

  The barcode label 10 is read when the barcode displayed on the barcode display unit 53 of the barcode label 10 shown in FIG. 4 is read. In other words, in this embodiment, the barcode label 10 is read in two upper and lower stages.

  As shown in FIG. 28, when reading a barcode from the lower stage to the upper stage, a, b, c, d, e are positioned in front of the barcode reader 4 in the lower barcode reading unit 56. In the bar code of the upper bar code reading unit 54, f, g, h, i, and j are bars positioned on the back surface of the bar code reader 4. This is a range in which the code label 10 is read step by step.

  The inventory operation is an operation of reading the barcode label 10 while moving the hand unit 38 in the vertical direction at a constant speed. When the reading of the two opposite barcode labels 10L and 10R is switched by the movable mirror 74, the dead time (both For example, the mirror inversion area 58 has a width of about 1.1 [mm]. With such a configuration, the hand unit 38 can continue to move at a constant speed during the inventory operation, and the inventory operation time can be shortened.

  Further, when reading the barcode from the upper stage toward the lower stage, k, l, m, n, o are positioned in front of the barcode reader 4 in the barcode of the barcode reading unit 54 on the upper stage side. The bar code label 10 is a range in which the bar code label 10 is read step by step. In the bar code of the bar code reading unit 56 on the lower side, p, q, r, s, and t are bar code labels positioned on the back of the bar code reader 4. 10 is a range in which the bar code can be read continuously.

  Next, a cell map of the magnetic tape library will be described with reference to FIGS. 29 and 30. FIG. 29 and 30 are diagrams showing cell maps of the magnetic tape library. The configurations shown in FIGS. 29 and 30 are examples, and the present invention is not limited to such configurations.

  After performing the inventory operation, as shown in FIG. 29, a table for determining which volume is registered in each cell 16 is created in the flash memory 180 (storage unit 98) of the main controller 90.

  In the table of FIG. 29, it is displayed that the 13th and 16th terms in the column 1 and the 13th term in the column 5 cannot be decoded and are in error.

  In a normal inventory operation, after reading all the bar code labels 10 in the magnetic tape library apparatus 2, the hand unit 38 is positioned at the error location on the table and the bar code label is reread (retry). However, in addition to the volume information registered in the table shown in FIG. 29, by adding information indicating which optical system 70, 72 has read the barcode, the retry operation for the barcode label 10 that has failed to be read. When performing the retry operation, the retry operation may be performed using the optical system on the opposite side of the optical system 70 or 72 that has failed in reading. In addition, if the reading position information indicating which bar code reading unit 54 or 56 of the bar code label 10 has read the bar code is added to these pieces of information, the robot 8 is positioned at the time of the retry operation. It can be used for such judgment materials. FIG. 30 is a table showing a cell map displayed with these pieces of information added.

  [Other Examples]

  For another embodiment, refer to FIG. FIG. 31 is a diagram illustrating an inventory operation of barcode labels. The configuration shown in FIG. 31 is an example, and the present invention is not limited to such a configuration. In FIG. 31, the same parts as those in FIG.

  In the embodiment and the example described above, the case where two barcode reading units 54 and 56 are arranged on the barcode of the barcode label 10 has been described. However, as shown in FIG. The present invention can also be applied to a case where a single barcode reading unit 55 is arranged for 11 barcodes.

  In the inventory operation by the barcode reader 4, the hand unit 38 is moved at a constant speed in the vertical direction, and the barcode reader 4 performs a reading operation during the movement. When moving from bottom to top, barcode symbol information is read in the order of A, B, C, D, and E. Each moving distance is 2 [mm], for example, and the time (exposure time) during which light enters the CCD camera 68 is 3.5 [ms], for example. That is, for example, the CCD camera 68 captures a range of 2 [mm] by one reading operation, and results in obtaining surface information as integrated line information.

  On the other hand, when moving from top to bottom, barcode symbol information is read in the order of F, G, H, I, and J. In this case, the basic operation and processing method are the same.

  Therefore, when the barcode labels 11L and 11R on the left and right are continuously read by reversing the movable mirror 74, the range A and B of the barcode label 11L are read and then the range C is read by moving from the lower side. If the movable mirror 74 is reversed and the ranges D and E of the barcode label 11R are read, the barcode images of the two barcode labels 11L and 11R can be continuously captured by the CCD camera 68 (FIG. 26). The inventory operation time can be shortened.

  Next, technical ideas extracted from the embodiments of the present invention described above are listed as appendices according to the description format of the claims. The technical idea according to the present invention can be grasped by various levels and variations from a superordinate concept to a subordinate concept, and the present invention is not limited to the following supplementary notes.

(Supplementary note 1) a light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
A movable mirror configured to change the angle around the axis;
A mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is reflected on the movable mirror via the first lens and is captured by the CCD camera.
When the movable mirror is in the second state, the second barcode image is reflected on the movable mirror via the second lens different from the first lens, and the CCD camera A bar code reader characterized by being imaged.

(Supplementary Note 2) The barcode reader further includes:
A reading unit that reads information represented by the barcode based on the barcode image captured by the CCD camera;
A rotation control unit for rotating the barcode reader,
If the reading result by the reading unit is an error,
The rotation control unit rotates the barcode reader,
The mirror control unit is configured to change the angle of the movable mirror so that the barcode image enlarged by the lens different from the lens used for the reading is captured by the CCD camera. The barcode reader according to appendix 1.

(Supplementary note 3) The barcode reader according to supplementary note 1 or 2, wherein the first barcode and the second barcode are arranged so as to face each other with the barcode reader interposed therebetween.

(Supplementary Note 4) a light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
A movable mirror configured to change the angle around the axis;
A mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is reflected by the movable mirror and is captured by the CCD camera via the lens.
In addition, when the movable mirror is in the second state, the second barcode image is reflected by the movable mirror and is imaged by the CCD camera through the lens. leader.

(Supplementary Note 5) a plurality of light sources that emit light with respect to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
A light guide member that makes the barcode image incident on the CCD camera;
A light source control unit that controls to emit only one light source among the plurality of light sources,
The bar code reader, wherein the bar code image which is a light emission target of the one light source emitted by the light source control unit is picked up by the CCD camera via the light guide member and the lens.

(Supplementary note 6) The barcode reader according to supplementary note 5, wherein the plurality of light sources are positioned above the light guide member.

(Supplementary note 7) a light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
Multiple mirrors,
A movable mirror configured to change the angle around the axis;
A mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is directly reflected on the CCD camera via the lens without being reflected by the movable mirror,
Further, when the movable mirror is in the second state, the second barcode image is reflected by the mirror including the movable mirror, and is imaged by the CCD camera via the lens. Bar code reader.

(Appendix 8) The movable mirror in the first state is substantially parallel to the optical axis connecting the first barcode and the lens,
The barcode reader according to appendix 7, wherein the movable mirror in the second state is in a state of approximately 45 degrees with respect to the optical axis.

(Supplementary note 9) The barcode according to Supplementary note 1, wherein the barcode reading is performed individually by first and second barcode reading units which are set in the vertical direction with an interval between barcode labels. Bar code reader.

(Additional remark 10) The light source which light-emits with respect to barcode,
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
A movable mirror configured to change the angle around the axis;
A mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is reflected on the movable mirror via the first lens and is captured by the CCD camera.
When the movable mirror is in the second state, the second barcode image is reflected on the movable mirror via the second lens different from the first lens, and the CCD camera The library apparatus is characterized in that it is picked up by an image.

(Supplementary Note 11) The barcode reader further includes:
A reading unit that reads information represented by the barcode based on the barcode image captured by the CCD camera;
A rotation control unit for rotating the barcode reader,
If the reading result by the reading unit is an error,
The rotation control unit rotates the barcode reader,
The mirror control unit is configured to change the angle of the movable mirror so that the barcode image enlarged by the lens different from the lens used for the reading is captured by the CCD camera. The library apparatus according to appendix 10.

(Supplementary note 12) The library apparatus according to Supplementary note 10 or 11, wherein the first barcode and the second barcode are arranged to face each other at 180 degrees across the barcode reader.

(Supplementary note 13) a light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
A movable mirror configured to change the angle around the axis;
A mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is reflected by the movable mirror and is captured by the CCD camera via the lens.
Further, when the movable mirror is in the second state, the second barcode image is reflected by the movable mirror and is imaged by the CCD camera through the lens. .

(Supplementary note 14) a plurality of light sources that emit light with respect to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
A light guide member that makes the barcode image incident on the CCD camera;
A light source control unit that controls to emit only one of the plurality of light sources,
The library apparatus, wherein the barcode image which is a light emission target of the one light source emitted by the light source control unit is picked up by the CCD camera via the light guide member and the lens.

(Supplementary note 15) The library apparatus according to supplementary note 14, wherein the plurality of light sources are positioned above the light guide member.

(Supplementary Note 16) A light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
Multiple mirrors,
A movable mirror configured to change the angle around the axis;
A mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is directly reflected on the CCD camera via the lens without being reflected by the movable mirror,
Further, when the movable mirror is in the second state, the second barcode image is reflected by the mirror including the movable mirror, and is imaged by the CCD camera via the lens. A library device.

(Supplementary Note 17) The movable mirror in the first state is substantially parallel to an optical axis connecting the first barcode and the lens,
The library apparatus according to appendix 16, wherein the movable mirror in the second state is in a state of 45 degrees or substantially 45 degrees with respect to the optical axis.

As described above, the most preferred embodiments and examples of the present invention have been described. However, the present invention is not limited to the above description, and is described in the claims or disclosed in the specification. It goes without saying that various modifications and changes can be made by those skilled in the art based on the gist of the present invention, and such modifications and changes are included in the scope of the present invention.

The present invention relates to a barcode reader for reading a barcode, which realizes continuous reading of barcodes on left and right magnetic tape cartridges stored in a magnetic tape library apparatus or the like. It can be applied to reader-equipped devices and is useful.

It is a figure which shows an example of the magnetic tape library apparatus which concerns on 1st Embodiment. It is a figure which shows the schematic planar structure in a magnetic tape library apparatus. It is a figure which shows the rotation mechanism of a hand part. It is a figure which shows an example of a magnetic tape cartridge. It is a figure which shows the structure of a barcode reader. It is a figure which shows the barcode reader in which a movable mirror is in an inversion state. It is a block diagram which shows an example of a controller and a barcode reader. It is a figure which shows the reading process of a barcode. It is a flowchart which shows the process sequence of an inventory process. It is a flowchart which shows the process sequence of the retry process of barcode reading. It is a figure which shows the structure of the barcode reader which concerns on 2nd Embodiment. It is a figure which shows the barcode reader in which a movable mirror is in an inversion state. It is a figure which shows the structure of the barcode reader which concerns on 3rd Embodiment. It is a figure which shows the barcode reader in the barcode reading state of a reverse direction. It is a figure which shows the structure of the barcode reader which concerns on 4th Embodiment. It is a figure which shows the barcode reader in the barcode reading state of a reverse direction. It is a figure which shows the structure of the barcode reader which concerns on 5th Embodiment. It is a figure which shows the barcode reader in which a movable mirror is in a rotation state. It is a flowchart which shows the process sequence of the inventory process which concerns on 6th Embodiment. It is a perspective view which shows the magnetic tape library apparatus by which a barcode reader is mounted. It is a perspective view which shows an example of a robot. It is a perspective view which shows an example of a hand part. It is a figure which shows an example of the hand part seen from the back side. It is a disassembled perspective view which shows the barcode reader mounted in the hand part. It is a block diagram which shows an example of a controller, an I / F card, and a barcode reader. It is a figure which shows the case where the barcode label on the left side is read. It is a figure which shows the case where the barcode label on the right side is read. It is a figure which shows the inventory operation | movement of a barcode label. It is a figure which shows the cell map of a magnetic tape library. It is a figure which shows the cell map of a magnetic tape library. It is a figure which shows the inventory operation | movement of a barcode label.

Explanation of symbols

2 Magnetic tape library device 4 Bar code reader 6 Magnetic tape cartridge 8 Robot 20 Controller 48 Swivel mechanism 64, 66 LED for illumination
68 CCD camera 74 Movable mirror 76, 78 Lens 86 Mirror control unit 118 Logic unit

Claims (6)

A light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
And availability dynamic mirror,
A movable mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is reflected on the movable mirror via the first lens and is captured by the CCD camera.
When pre-Symbol movable mirror of the second state, and the second of said bar code image is the first lens and reflected by the movable mirror through a different second of the lens, the CCD camera A bar code reader characterized by being imaged. The bar code reader further includes
A reading unit that reads information represented by the barcode based on the barcode image captured by the CCD camera;
A rotation control unit for rotating the barcode reader,
If the reading result by the reading unit is an error,
The rotation control unit rotates the barcode reader,
The movable mirror controller changes an angle of the movable mirror so that the barcode image enlarged by the lens different from the lens used for the reading is picked up by the CCD camera. The barcode reader according to claim 1.   The barcode reader according to claim 1 or 2, wherein the first barcode and the second barcode are arranged so as to face each other with the barcode reader interposed therebetween. A light source that emits light to the barcode;
A CCD camera for capturing an image of the barcode;
A lens for enlarging the barcode image;
And availability dynamic mirror,
A movable mirror control unit that controls the movable mirror to be in the first state or the second state by changing the angle of the movable mirror;
When the movable mirror is in the first state, the first barcode image is reflected by the movable mirror and is captured by the CCD camera via the lens.
When pre-Symbol movable mirror of the second state, the second of said bar code image is reflected on the movable mirror, characterized in that it is imaged on the CCD camera through the lens, a bar code reader . A first light source for irradiating light to the first bar code,
A second light source for irradiating the second barcode with light;
A CCD camera for capturing images of the first and second barcodes;
A lens for enlarging the images of the first and second barcodes;
A light guide member for inputting the images of the first and second barcodes to the CCD camera;
The first only the first light source to emit light in the case of imaging the image of the bar code, the second light source for so that controlled to emit light only the second light source when imaging the image of the bar code A control unit,
By irradiating the first barcode with light from the first light source, an image of the first barcode is captured by the CCD camera via the light guide member and the lens, and the second barcode is obtained. When the light from the light source is irradiated onto the second barcode , the image of the second barcode is captured by the CCD camera via the light guide member and the lens. Bar code reader. 6. The barcode reader according to claim 5, wherein the first and second light sources are located above the light guide member.

Images