WO2014084337A1 - インクジェット印刷システムおよびインクジェット印刷制御プログラム - Google Patents
インクジェット印刷システムおよびインクジェット印刷制御プログラム Download PDFInfo
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- WO2014084337A1 WO2014084337A1 PCT/JP2013/082151 JP2013082151W WO2014084337A1 WO 2014084337 A1 WO2014084337 A1 WO 2014084337A1 JP 2013082151 W JP2013082151 W JP 2013082151W WO 2014084337 A1 WO2014084337 A1 WO 2014084337A1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J29/00—Details of, or accessories for, typewriters or selective printing mechanisms not otherwise provided for
- B41J29/38—Drives, motors, controls or automatic cut-off devices for the entire printing mechanism
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/008—Controlling printhead for accurately positioning print image on printing material, e.g. with the intention to control the width of margins
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/009—Detecting type of paper, e.g. by automatic reading of a code that is printed on a paper package or on a paper roll or by sensing the grade of translucency of the paper
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
- B41J3/28—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for printing downwardly on flat surfaces, e.g. of books, drawings, boxes, envelopes, e.g. flat-bed ink-jet printers
Definitions
- the present invention relates to an inkjet printing system including a recording head that ejects ink.
- the print condition is, for example, when printing the print image.
- an image arrangement which is an arrangement of print images on the medium mounting table in a state where a plurality of print images having different numbers of passes are arranged in the main scanning direction, is set in the recording head in the main scanning direction with respect to the medium mounting table. Ink ejection in the main scanning direction in which ink is ejected to the target medium on the medium mounting table by the recording head while the recording head is moved relatively, and relative movement of the recording head in the sub-scanning direction with respect to the medium mounting table.
- the image arrangement is set in a state where a plurality of print images having the same specific condition among the print conditions are arranged in the main scanning direction. It is preferred that
- the user since the user sets the image layout, the user sets the image layout that reduces the total time required for printing on a plurality of target media on the medium mounting table.
- the user there is a problem that sufficient examination of the image arrangement is required, and that the examination itself requires skill.
- the present invention provides an ink jet printing system that can facilitate settings that need to be executed by a user for efficient printing on a plurality of target media on a medium mounting table. For the purpose.
- the inkjet printing system of the present invention includes a recording head that ejects ink and the recording head in a main scanning direction and a sub-scanning direction with respect to a medium mounting table on which a plurality of target media that are targets of printing can be mounted.
- An ink jet printing system comprising a relative movement device for relatively moving the information and an information output unit for outputting information, the medium type being the type of the target medium, and the target medium to be printed
- a print information receiving unit that receives print information that is information including a print image that is an image and a print condition of the print image, and a print information that is included in the print information received by the print information receiving unit.
- An image arrangement determining means for determining an image arrangement, which is an arrangement on the medium mounting table, and the image arrangement determined by the image arrangement determining means;
- Medium arrangement output means for outputting the medium arrangement, which is the arrangement of the target medium, to the information output unit; and print execution means for executing printing on the target medium on the medium mounting table by the recording head and the relative movement device.
- the print execution unit includes the print image and the print condition included in the print information received by the print information reception unit, and the image arrangement determined by the image arrangement determination unit.
- the image arrangement determining unit is configured to print the image in a state where a plurality of the print images having the same specific print condition, which is a predetermined condition among the print conditions, are arranged in the main scanning direction. The arrangement is determined.
- the ink jet printing system can respond to the image arrangement for shortening the total time required for printing on a plurality of target media on the medium mounting table only by setting print information by the user.
- the media arrangement can be presented to the user. Therefore, the user of the inkjet printing system simply places a plurality of target media on the medium mounting table according to the medium layout presented by the ink jet printing system, and the inkjet printing system applies to the plurality of target media on the medium mounting table.
- the total time required for printing can be shortened. That is, the ink jet printing system of the present invention can facilitate the setting that needs to be executed by the user for efficient printing on a plurality of target media on the medium mounting table.
- the print information may include the number of prints of the print image.
- the inkjet printing system of the present invention does not require the user to specify a plurality of pieces of print information having the same medium type, print image, and print condition one by one. Compared with a configuration in which a user designates a plurality of pieces of print information having the same one by one, it is possible to facilitate setting of print information by the user. That is, the inkjet printing system of the present invention can further facilitate the settings that need to be performed by the user for efficient printing on a plurality of target media on the media mounting table.
- the ink jet printing system of the present invention further includes a table exchanging device for automatically exchanging a medium mounting table to be printed among the plurality of medium mounting tables, and the printing execution unit includes the printing information receiving unit. Based on the print image and the print condition included in the print information received by the image information, and the image layout determined by the image layout determination means, the recording head, the relative movement device, and the platform replacement The apparatus executes printing on the target medium on the medium mounting table, and the image arrangement determination unit is configured to print the medium by the table exchanging apparatus when the plurality of print images having different specific printing conditions are arranged in the main scanning direction.
- the printing time required in a state where the plurality of print images are arranged in the main scanning direction is the number of print marks.
- the printing time required in a state where the image is not arranged in the main scanning direction may determine the image positioned with the plurality of printing images are aligned in the main scanning direction.
- the ink jet printing system of the present invention can present the user with a medium arrangement that takes into account the time for automatic replacement of the medium mounting table by the table changing device. Compared with the configuration in which the user is presented with a medium arrangement that does not consider automatic replacement time, the total time required for printing on a plurality of target media on the medium mounting table can be shortened. That is, the inkjet printing system of the present invention can further increase the efficiency of printing on a plurality of target media on the media mounting table.
- the ink jet printing control program of the present invention records the recording in the main scanning direction and the sub-scanning direction with respect to a recording head for ejecting ink and a medium mounting table on which a plurality of target media, which are target media to be printed, can be mounted.
- an ink jet printing system comprising: an ink jet printer having a relative movement device for relatively moving the head; and a computer having an information output unit for outputting information and controlling the ink jet printer
- An inkjet printing control program to be printed which is information including a medium type that is the type of the target medium, a print image that is an image to be printed on the target medium, and a print condition of the print image
- Printing information receiving means for receiving information, by the printing information receiving means
- An image arrangement determining means for determining an image arrangement that is an arrangement of the print image included in the attached print information on the medium mounting table, and according to the image arrangement determined by the image arrangement determining means
- a medium arrangement output means for outputting the medium arrangement, which is the arrangement of the target medium, to the information output unit, and a print execution for executing printing on the target medium on the medium mounting table by the recording head and the relative movement device
- the computer functions as means, and the print execution means includes the print image and the print condition included in the print information received by the print information reception means
- the computer that executes the inkjet printing control program of the present invention can set the total time required for printing by the inkjet printer on a plurality of target media on the medium mounting table only by setting the printing information by the user.
- the medium arrangement corresponding to the image arrangement for shortening can be presented to the user. Therefore, the computer user who executes the inkjet printing control program of the present invention simply arranges a plurality of target media on the medium mounting table according to the medium arrangement presented by the computer, and the plurality of target media on the medium mounting table.
- the total time required for printing with an inkjet printer can be shortened. That is, the computer that executes the inkjet printing control program of the present invention has conventionally made settings that need to be executed by the user for efficient printing by the inkjet printer to a plurality of target media on the medium mounting table. Can be facilitated.
- the ink jet printing system of the present invention can make settings that need to be executed by a user for efficient printing on a plurality of target media on a medium mounting table easier than before.
- FIG. 1 is a block diagram of an inkjet printing system according to an embodiment of the present invention. It is a front view of the inkjet printer shown in FIG. 1 in the state in which the pallet is conveyed between the supply apparatus and the main body.
- FIG. 3 is a plan view of the ink jet printer shown in FIG. 1 in the state shown in FIG. 2. It is an external appearance perspective view of the magazine used with the inkjet printer shown in FIG. It is an external appearance perspective view of the pallet shown in FIG.
- It is a block diagram of the inkjet printer shown in FIG. It is a block diagram of the computer shown in FIG. It is a flowchart of the work procedure of the user of the inkjet printing system shown in FIG. It is a top view of the inkjet printer shown in FIG.
- FIG. 1 in the state in which the magazine is mounted on the roller conveyor of a supply apparatus. It is a front view of the ink jet printer shown in Drawing 1 in the state where a magazine exists in the lowest position in the raising / lowering device of a supply device. It is a top view of the inkjet printer shown in FIG. 1 in the state in which the pallet is conveyed between the main body and the collection
- recovery apparatus. 2 is a flowchart of the operation of the computer shown in FIG. 1 when print information is input. It is a figure which shows an example of the printing information received by the printing information reception means shown in FIG.
- FIG. 1 is a block diagram of an inkjet printing system 10 according to the present embodiment.
- the inkjet printing system 10 includes an inkjet printer 20 and a computer 100 that controls the inkjet printer 20.
- the inkjet printer 20 and the computer 100 are connected to each other via a cable 11 such as a USB (Universal Serial Bus) cable so that they can communicate with each other.
- the inkjet printer 20 and the computer 100 may be connected to each other via a network such as a LAN (Local Area Network) or the Internet instead of the cable 11.
- a network such as a LAN (Local Area Network) or the Internet instead of the cable 11.
- FIG. 2 is a front view of the inkjet printer 20 in a state where the pallet 80 is being transported between the supply device 50 and the main body 30.
- FIG. 3 is a plan view of the ink jet printer 20 in the state shown in FIG.
- the inkjet printer 20 includes a main body 30 extending in the main scanning direction indicated by an arrow 20 a and a work as a target medium of the present invention which is a target medium printed by the inkjet printer 20.
- a pallet 80 as a medium mounting table of the present invention capable of mounting a plurality of 90 is transported in a sub-scanning direction indicated by an arrow 20b perpendicular to the main scanning direction indicated by an arrow 20a, and the pallet 80 is placed on the transporting device 40.
- the main body 30 is fixed to the transport device 40.
- the main body 30 includes a guide rail 31 extending in the main scanning direction indicated by an arrow 20a and a carriage 32 supported by the guide rail 31 so as to be movable in the main scanning direction indicated by the arrow 20a.
- the carriage 32 has a plurality of recording heads 33 for ejecting ultraviolet curable ink toward the work 90 in the direction indicated by the arrow 20c perpendicular to both the main scanning direction indicated by the arrow 20a and the sub-scanning direction indicated by the arrow 20b.
- the transport device 40 includes pallet guide mechanisms 41 that can transport the pallet 80 in the sub-scanning direction indicated by the arrow 20b on both sides in the main scanning direction indicated by the arrow 20a.
- the supply device 50 is connected to one end of the transport device 40 in the sub-scanning direction indicated by the arrow 20b.
- the supply device 50 includes a lifting / lowering device 51 capable of transporting a magazine 70 capable of storing a plurality of pallets 80 in the direction indicated by an arrow 20c, and a main scanning indicated by an arrow 20a for moving the magazine 70 in and out of the lifting / lowering device 51.
- a roller conveyor 52 extending in the direction.
- the elevating device 51 includes a door 51a that is opened when the magazine 70 is inserted and removed, and a plurality of hinges 51b that support the door 51a so as to be opened and closed.
- the collection device 60 is connected to the end of the transport device 40 in the sub-scanning direction indicated by the arrow 20b on the side opposite to the supply device 50 side.
- the collection device 60 includes a lifting device 61 that can transport the magazine 70 in the direction indicated by the arrow 20c, and a roller that extends in the main scanning direction indicated by the arrow 20a in order to move the magazine 70 in and out of the lifting device 61.
- a conveyor 62 a conveyor 62.
- the elevating device 61 includes a door 61a that is opened when the magazine 70 is inserted and removed, and a plurality of hinges 61b that support the door 61a so as to be opened and closed.
- the transport device 40, the supply device 50, and the collection device 60 operate in cooperation with each other, so that the pallet 80 to be printed is automatically replaced among the pallets 80 stored in the magazine 70. And constitutes a table exchange device of the present invention.
- FIG. 4 is an external perspective view of the magazine 70.
- a plurality of storage portions 71 for storing the pallets 80 are formed in the direction indicated by the arrow 20c, and a plurality of pallets 80 can be stored.
- FIG. 5 is an external perspective view of the pallet 80.
- the pallet 80 has a plurality of placement portions 81 for placing the workpiece 90, and a plurality of workpieces 90 can be placed thereon.
- the pallet 80 has three rows of placement portions 81 in the main scanning direction indicated by arrows 20a and four rows of placement portions 81 in the sub-scanning direction indicated by arrows 20b. Thus, a total of 12 workpieces 90 can be placed.
- Work 90 is, for example, a cover of a mobile terminal such as a smartphone.
- FIG. 6 is a block diagram of the inkjet printer 20.
- the carriage 32 (see FIG. 3) is moved to an arrow 20a (see FIG. 3) with respect to the recording head 33 and the ultraviolet irradiation device 34 described above and the guide rail 31 (see FIG. 3). ), The pallet guide mechanism 41, the lifting device 51 and the lifting device 61, and the computer 100 (see FIG. 1) via the cable 11 (see FIG. 1) or the network. 1), and an EEPROM (Electrically Erasable) that stores various data.
- the communication unit 21 is a communication device that communicates with an external device.
- a storage unit 22 that is a storage device such as Programmable Read Only Memory) and a control unit 23 that controls the entire inkjet printer 20 are provided.
- the carriage driving unit 35 moves the carriage 32 on which the recording head 33 is mounted in the main scanning direction indicated by the arrow 20a with respect to the guide rail 31, thereby the pallet 80 supported by the pallet guide mechanism 41.
- This is a device for moving the recording head 33 relatively in the main scanning direction indicated by the arrow 20a (see FIG. 5).
- the pallet guide mechanism 41 is supported by the pallet guide mechanism 41 by moving the pallet 80 in the sub-scanning direction indicated by an arrow 20b (see FIG. 3) with respect to the main body 30 including the recording head 33.
- This is a device for moving the recording head 33 relative to the pallet 80 in the sub-scanning direction indicated by the arrow 20b.
- the carriage drive unit 35 and the pallet guide mechanism 41 are provided with the relative movement device of the present invention that moves the recording head 33 relative to the pallet 80 in the main scanning direction indicated by the arrow 20a and the sub-scanning direction indicated by the arrow 20b. It is composed.
- the control unit 23 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory) that stores programs and various data in advance, and a RAM (Random Access Memory) that is used as a work area of the CPU. ing.
- the CPU is configured to execute a program stored in the ROM or the storage unit 22.
- FIG. 7 is a block diagram of the computer 100.
- the computer 100 is a display device such as an operation unit 101 that is an input device such as a mouse or a keyboard to which various operations are input, and an LCD (Liquid Crystal Display) that displays various information.
- the display unit 102 as an information output unit of the present invention and a communication unit that is a communication device that communicates with an external device such as the inkjet printer 20 (see FIG. 1) via the cable 11 (see FIG. 1) or a network.
- 103 and an HDD that stores programs and various data A storage unit 104 that is a storage device such as a hard disk drive) and a control unit 105 that controls the entire computer 100.
- the computer 100 is configured by a computer such as a PC (Personal Computer).
- the storage unit 104 stores an inkjet print control program 104a that is a program for controlling printing by the inkjet printer 20.
- the inkjet printing control program 104a may be installed in the computer 100 at the manufacturing stage of the computer 100, or may be a CD (Compact Disk), a DVD (Digital). It may be additionally installed on the computer 100 from a storage medium such as Versatile Disk, or may be additionally installed on the computer 100 from the network.
- the storage unit 104 can store a plurality of print information 104b, which is information used for printing by the inkjet printer 20.
- the print information 104b includes a work type 104c as a medium type of the present invention, which is the type of the work 90, a print image 104d that is an image to be printed on the work 90, a print condition 104e for the print image 104d, This is information including the number of prints 104f that is the number of prints of the print image 104d.
- the work type 104c is a type specified by the color, size, and shape of the work 90, for example.
- the printing condition 104e for example, the resolution at the time of printing the print image 104d, the number of passes at the time of printing the print image 104d, and the background by white ink at the time of printing the print image 104d (hereinafter referred to as “white background”). ) And the number of times of coating with transparent ink (hereinafter referred to as “clear coating”) when printing the printed image 104d.
- the ink jet printer 20 When the image arrangement is set in a state where a plurality of print images 104d having different resolutions are arranged in the main scanning direction indicated by the arrow 20a, the ink jet printer 20 has the recording head 33 in the main scanning direction indicated by the arrow 20a with respect to the pallet 80.
- the ink is ejected in the main scanning direction indicated by the arrow 20a and the recording head 33 is ejected in the sub-scanning direction indicated by the arrow 20b with respect to the pallet 80.
- a series of printing operations (hereinafter referred to as “series printing operations”) executed by repeating the relative movement of 33 is performed on a plurality of print images 104d arranged in the main scanning direction indicated by an arrow 20a.
- the process is executed separately for different printing condition units of different resolutions.
- the inkjet printer 20 has a plurality of print images arranged in the main scanning direction indicated by the arrow 20a when the image layout is set in a state where the plurality of print images 104d having different numbers of passes are arranged in the main scanning direction indicated by the arrow 20a. For 104d, it is necessary to separately execute a series of printing operations in different printing condition units such as differences in the number of passes.
- the white background can make the color of the printed image 104d printed on the white background stand out.
- the white background printing needs to be executed before the printing of the print image 104d on the white background. Therefore, when the image arrangement is set in the ink jet printer 20 in a state where the print image 104d that requires the white background and the print image 104d that does not require the white background are aligned in the main scanning direction indicated by the arrow 20a, For a plurality of print images 104d arranged in the main scanning direction indicated by 20a, a series of print operations are separately executed under different print condition units such as the presence or absence of a white background.
- the clear coat can improve the design and strength of the printed image 104d printed under the clear coat.
- the clear coat can form a number of layers according to the number of times of printing, and as a result, can be formed with a thickness according to the number of times of printing.
- the clear coat printing needs to be executed after the print image 104d under the clear coat is printed. Further, the clear coat printing needs to be executed separately for each layer of the clear coat. Therefore, the inkjet printer 20 has a plurality of print images 104d with different numbers of clear coats arranged in the main scanning direction indicated by the arrow 20a, and a plurality of images arranged in the main scanning direction indicated by the arrow 20a. For the print image 104d, a series of print operations are separately executed in different print condition units, which are different in the number of clear coats.
- the control unit 105 includes, for example, a CPU, a ROM that stores programs and various data in advance, and a RAM that is used as a work area of the CPU.
- the CPU is configured to execute a program stored in the ROM or the storage unit 104.
- the control unit 105 includes the print information reception unit 105a that receives the print information 104b and the print information 104b that is received by the print information reception unit 105a by executing the inkjet print control program 104a stored in the storage unit 104.
- the image layout determining means 105b for determining the image layout that is the layout on the palette 80 of the printed image 104d, and the medium layout of the present invention that is the layout of the work 90 according to the image layout determined by the image layout determining means 105b Printing on the workpiece 90 on the pallet 80 by the workpiece arrangement output means 105c as the medium arrangement output means of the present invention for outputting the workpiece arrangement as the display unit 102, the recording head 33, the carriage drive unit 35 and the pallet guide mechanism 41. Execution means 1 for executing To function as 5d.
- FIG. 8 is a flowchart of the work procedure of the user of the inkjet printing system 10.
- the user inputs print information 104b to the computer 100 via the operation unit 101 of the computer 100, and causes the computer 100 to generate print data (S201).
- the print information receiving unit 105a of the control unit 105 of the computer 100 to which the print information 104b has been input receives the input print information 104b.
- the image arrangement determining unit 105b of the control unit 105 determines the image arrangement based on the print information 104b received by the print information receiving unit 105a.
- the work arrangement output unit 105c of the control unit 105 causes the display unit 102 to display a work arrangement corresponding to the image arrangement determined by the image arrangement determination unit 105b.
- the print execution unit 105d of the control unit 105 also includes a print image 104d and a print condition 104e included in the print information 104b received by the print information reception unit 105a, and the image arrangement determined by the image arrangement determination unit 105b. Generate print data based on.
- FIG. 9 is a plan view of the inkjet printer 20 in a state where the magazine 70 is placed on the roller conveyor 52 of the supply device 50.
- the user places the work 90 on the pallet 80 so that the position of the work 90 on the pallet 80 in the magazine 70 is the work arrangement displayed on the display unit 102 of the computer 100.
- the pallet 80 is stored in a magazine 70 placed on the roller conveyor 52 as shown in FIG. 9 (S202).
- FIG. 10 is a front view of the inkjet printer 20 in a state where the magazine 70 exists at the lowest position in the lifting device 51 of the supply device 50.
- the user After the operation in S202, the user stores the magazine 70 placed on the roller conveyor 52 in the lifting device 51 of the supply device 50 as shown in FIG. 10 (S203).
- the user instructs the computer 100 to start printing via the operation unit 101 of the computer 100 (S204).
- the print execution unit 105 d of the control unit 105 of the computer 100 instructed to start printing transmits the print data generated in S 201 to the inkjet printer 20 via the communication unit 103.
- the control unit 23 of the inkjet printer 20 that has received the print data via the communication unit 21 executes printing on the work 90 based on the print data.
- the control unit 23 controls the elevating device 51 of the supply device 50 and the elevating device 61 of the collection device 60 based on the print data, so that the first magazine 70 in the elevating device 51 is placed in the direction indicated by the arrow 20c.
- the height of the pallet 80 is aligned with the height of the pallet guide mechanism 41 of the conveying device 40, and the height of the magazine 70 in the lifting device 61 is set to the height of the magazine 70 in the lifting device 51 in the direction indicated by the arrow 20c. Align.
- control unit 23 controls the pallet guide mechanism 41 of the transport device 40 based on the print data, thereby causing the pallet guide from the magazine 70 in the lifting device 51 of the supply device 50 as shown in FIGS.
- the pallet 80 is taken out by the mechanism 41.
- FIG. 11 is a plan view of the inkjet printer 20 in a state where the pallet 80 is being transported between the main body 30 and the collection device 60.
- the control unit 23 takes out the pallet 80 from the magazine 70 in the elevating device 51, and then, based on the print data, the recording head 33, the ultraviolet irradiation device 34, the carriage driving unit 35, and the pallet guide mechanism of the transport device 40. 41, the print image included in the print data is printed on the workpiece 90 placed on the pallet 80 as shown in FIG.
- control unit 23 prints a print image on the workpiece 90 placed on the pallet 80, and then controls the pallet guide mechanism 41 of the transport device 40 based on the print data, thereby lifting and lowering the collection device 60.
- the pallet 80 is stored in the magazine 70 in the 61 by the pallet guide mechanism 41.
- the control unit 23 controls the lifting device 51 of the supply device 50 and the lifting device 61 of the collection device 60 based on the print data.
- the height of the pallet 80 next to the magazine 70 in the lifting device 51 in the direction indicated by the arrow 20c is aligned with the height of the pallet guide mechanism 41 of the transport device 40, and in the lifting device 61 in the direction indicated by the arrow 20c.
- the height of the magazine 70 is aligned with the height of the magazine 70 in the lifting device 51.
- control unit 23 performs printing as described above on the pallet 80 that is aligned with the height of the pallet guide mechanism 41 of the transport device 40 among the pallets 80 stored in the magazine 70 in the lifting device 51. Is stored in the magazine 70 in the lifting device 61.
- the control unit 23 repeats this series of processing until the pallet 80 to be printed disappears in the magazine 70 in the lifting device 51.
- control unit 23 controls the lifting device 51 of the supply device 50 and the lifting device 61 of the collection device 60 when printing on the workpieces 90 of all the pallets 80 to be printed is completed. Then, the magazine 70 in the lifting device 51 of the supply device 50 and the magazine 70 in the lifting device 61 of the collecting device 60 are moved to the lowest position, and printing on the workpiece 90 based on the print data is completed.
- the control unit 23 communicates the printing progress status, such as how many print images have been printed on what type of work 90, and how many have been completed so far. It transmits to the computer 100 via the unit 21.
- the print execution unit 105 d of the control unit 105 of the computer 100 that has received the progress status via the communication unit 103 displays the progress status on the display unit 102. Therefore, the user can grasp the progress of printing by the ink jet printer 20 based on the display on the display unit 102.
- FIG. 12 is a plan view of the inkjet printer 20 in a state where the magazine 70 is placed on the roller conveyor 62 of the collection device 60.
- the inkjet printing system 10 can automatically perform printing on a large number of workpieces 90, the user can compare with the configuration in which the user manually replaces the pallet 80 one by one. The time required for completing printing on all the workpieces 90 can be greatly reduced. Therefore, for example, the user can cause the inkjet printer 20 to perform unattended printing on the work 90 during the night by performing the operations of S201 to S204 in the evening, and perform the operations of S205 and S206 the next morning. it can.
- the print execution unit 105d of the control unit 105 of the computer 100 sets the inkjet printer 20 as the current print target.
- the inkjet printer 20 is instructed to suspend the printing being executed when printing on the pallet 80 is completed.
- the user takes out the magazine 70 in the lifting device 51 of the supply device 50 onto the roller conveyor 52 of the supply device 50, and then via the operation unit 101 of the computer 100.
- the computer 100 is made to generate new print data in the same manner as the operation of S201.
- the user places the new print data work 90 on the pallet 80 in accordance with the work arrangement displayed on the display unit 102 of the computer 100 in the same manner as the work of S202, and places the pallet 80 in the magazine. 70.
- the user stores the magazine 70 in the elevating device 51 of the supply device 50 in the same manner as the operation of S203.
- the user instructs the computer 100 via the operation unit 101 of the computer 100 to resume printing.
- the print execution unit 105 d of the control unit 105 of the computer 100 instructed to resume printing transmits the generated new print data to the inkjet printer 20 via the communication unit 103.
- the control unit 23 of the inkjet printer 20 that has received the print data via the communication unit 21 resumes printing on the workpiece 90 based on the print data to which the new print data is added.
- the user instructs the computer 100 via the operation unit 101 of the computer 100 as to how to add new print data, whether to add to the beginning or the end of the print data before addition. Can do.
- FIG. 13 is a flowchart of the operation of the computer 100 when the print information 104b is input.
- control unit 105 of the computer 100 When the control unit 105 of the computer 100 is instructed to input the print information 104b via the operation unit 101, the control unit 105 starts the operation illustrated in FIG.
- the print information receiving means 105a of the control unit 105 receives the print information 104b input via the operation unit 101 (S231).
- the print information receiving unit 105a not only receives the print condition 104e directly input via the operation unit 101 but also the work type input via the operation unit 101.
- the print condition 104e previously associated with 104c may be received.
- the print information reception unit 105a automatically adds a white background as the print condition 104e. You may come to do.
- the image arrangement determining unit 105b of the control unit 105 rearranges the print images 104d received in S231 for the same specific print conditions (S232).
- the specific printing conditions are four conditions among the printing conditions 104e, that is, the resolution, the number of passes, the presence / absence of a white background, and the number of clear coats.
- FIG. 14 is a diagram illustrating an example of the print information 104b received by the print information receiving unit 105a.
- FIG. 15 is a diagram showing information in which the print image 104d in the print information 104b shown in FIG. 14 is individually divided and an ID is assigned to each print image 104d.
- FIG. 16 is a diagram showing information obtained by rearranging the information shown in FIG. 15 for each identical specific printing condition.
- the print information 104b received in S231 is the information shown in FIG.
- the information shown in FIG. 14 will be described using the information shown in FIG. 15 in which the print image 104d is divided into individual print images 104d without being grouped by the number of prints 104f, and each print image 104d is given an ID.
- the print information 104b received in S231 is the information shown in FIG. 14, the information shown in FIG. 15 is rearranged for each identical specific print condition in S232, and becomes the information shown in FIG.
- the image arrangement determining unit 105b collects the print images 104d received in S231 in as many as possible four or less for the same specific print conditions.
- a group of print images 104d for the workpiece 90 (hereinafter referred to as “main scanning column group”) arranged in the same column among the columns in the main scanning direction indicated by the arrow 20a in the pallet 80 is created (S233).
- four which is the reference number for creating the main scanning row group in S233, corresponds to the number of workpieces 90 that can be placed in the main scanning direction indicated by the arrow 20a on the pallet 80.
- the number serving as a reference for creating the main scanning row group in S233 is the pallet 80.
- the image arrangement determining unit 105b collects the main scanning row groups created in S233 in as many as possible three or less so that the group of print images 104d for the work 90 arranged on the same pallet 80 is obtained.
- (Hereinafter referred to as “pallet group”) is created (S234).
- 3 as a reference for creating a pallet group in S234 corresponds to the number of workpieces 90 that can be placed in the sub-scanning direction indicated by the arrow 20b on the pallet 80. Therefore, when the number of workpieces 90 that can be placed in the sub-scanning direction indicated by the arrow 20b on the pallet 80 is other than three, the number that becomes the reference for creating the pallet group in S234 is the arrow on the pallet 80. This is the number of workpieces 90 that can be placed in the sub-scanning direction indicated by 20b.
- FIG. 17 is a diagram showing information obtained by dividing the information shown in FIG. 16 into a palette group and a main scanning row group.
- the information rearranged in S232 is the information shown in FIG. 16, the information shown in FIG. 16 is divided into main scan row groups in S233 and then divided into palette groups in S234, and the information shown in FIG. become.
- the pallet group is identified by the pallet number.
- “1” is assigned to the pallet 80 stored in the lowermost storage unit 71 of the magazine 70, and the uppermost storage unit is selected from the pallet 80 stored in the lowermost storage unit 71. It is given to increase one by one toward the pallet 80 stored in 71.
- the main scanning row group is identified by a combination of a pallet number and a main scanning row number. The main scanning row number is the row closest to the opening of the storage portion 71 in the state where the pallet 80 is stored in the storage portion 71 of the magazine 70 among the rows in the main scanning direction indicated by the arrow 20a in the pallet 80.
- a group of print images 104d for the workpiece 90 (hereinafter referred to as “sub-scanning column group”) arranged in the same column among the columns in the sub-scanning direction indicated by the arrow 20b in the pallet 80 is a pallet number and a sub-scanning group. They are identified by a combination of scan column numbers.
- the sub-scanning column number corresponds to the column on the rightmost side of the pallet 80 in the sub-scanning direction indicated by the arrow 20b in the state where the pallet 80 is stored in the storage unit 71 of the magazine 70 toward the opening of the storage unit 71.
- “1” is given, and is given so as to increase by one from the rightmost row toward the opening of the storage portion 71 toward the leftmost row.
- the image arrangement determining unit 105b combines a plurality of main scanning row groups (hereinafter “combinable combinations”) in which the number of print images 104d is 4 or less even after integration. Is determined) (S235).
- the reference number of combinations that can be integrated in S235 corresponds to the number of workpieces 90 that can be placed in the main scanning direction indicated by the arrow 20a on the pallet 80. Therefore, when the number of workpieces 90 that can be placed in the main scanning direction indicated by the arrow 20a on the pallet 80 is other than four, the reference number of combinations that can be integrated in S235 is the arrow 20a on the pallet 80.
- the image arrangement determining unit 105b determines in S235 that there is an integrable combination
- the image arrangement determining unit 105b targets one of the integrable combinations (S236).
- the total time required for printing is shortened. It is determined whether or not it can be performed (S237).
- the time required for printing for each pallet 80 is based on, for example, the predetermined performance of the recording head 33, the carriage drive unit 35, and the pallet guide mechanism 41, and the combination of the print image 104d and the print condition 104e. Can be calculated.
- exchange of the pallet 80 is computable based on the performance determined beforehand of the conveying apparatus 40, the supply apparatus 50, and the collection
- the total time required for printing can be calculated based on the time required for printing for each pallet 80 and the time required for replacement of the pallet 80, for example.
- the image arrangement determining unit 105b determines whether there is an integrable combination that is not yet targeted (S238).
- the image arrangement determining unit 105b determines in S238 that there is an integrable combination that has not yet been targeted, the image arrangement determining unit 105b targets one of the integrable combinations that have not yet been targeted (S239), and returns to the process of S237 again.
- the image layout determining unit 105b determines in S237 that the total time required for printing can be shortened, the plurality of main scan column groups constituting the synthesizeable combination that is the current target are integrated to create a new main scan line group. A scan column group is created (S240).
- the image arrangement determining unit 105b regroups all the main scan row groups including the main scan row group created in S240 in as many as possible in the number of 3 or less, thereby reducing the number of the three or less main scan row groups.
- a palette group is created (S241), and the process of S238 is executed.
- 3 which is a reference number for creating a pallet group in S241 corresponds to the number of workpieces 90 that can be placed in the sub-scanning direction indicated by the arrow 20b on the pallet 80.
- the number that is the basis for creating the pallet group in S241 is the arrow on the pallet 80. This is the number of workpieces 90 that can be placed in the sub-scanning direction indicated by 20b.
- FIG. 18 is a diagram showing information obtained by dividing the information shown in FIG. 17 into a new palette group and a main scanning row group.
- the information divided into the main scanning row group and the palette group in S233 and S234 is the information shown in FIG. 17, the information shown in FIG. 17 is divided into new main scanning row groups in S240 and then new in S241.
- the information shown in FIG. 18 is divided into various palette groups.
- the information shown in FIG. 18 is different from the information shown in FIG. 17 in that, for example, the palette group and the main scanning column group of the print image 104d whose print ID is “011” are changed, and the print ID is The main scanning row group of the print image 104d which is “012” is changed.
- the print image 104d at that time is determined.
- the arrangement based on the pallet number, the main scanning row number, and the sub scanning row number assigned to is determined as an image arrangement that is an arrangement on the palette 80 of the print image 104d (S242).
- the work arrangement output unit 105c of the control unit 105 causes the display unit 102 to display the work arrangement corresponding to the image arrangement determined in S242 (S243).
- FIG. 19 is a diagram showing work placement information generated based on the information shown in FIG.
- the work layout information displayed on the display unit 102 in S243 is the information shown in FIG. Accordingly, the user places the work 90 on the pallet 80 so that the position of the work 90 on the pallet 80 in the magazine 70 is the work arrangement shown in FIG. 19, and places the pallet 80 on the roller conveyor 52. What is necessary is just to store in the magazine 70 currently mounted.
- the work arrangement output means 105c displays the work arrangement by a pallet number, a main scanning column number, and a sub scanning column number.
- the work placement output means 105c may display the work placement by a method other than the number display.
- the work placement output unit 105c may display the work placement in a diagram such as displaying the work 90 image superimposed on the image of the pallet 80.
- the print execution unit 105d of the control unit 105 is based on the print image 104d and the print condition 104e included in the print information 104b received in S231, and the image arrangement determined in S242.
- Print data is generated (S244), and the operation shown in FIG. 13 ends.
- the inkjet printing system 10 can reduce the total time required for printing on the plurality of workpieces 90 on the pallet 80 only by setting the print information 104b by the user (S231).
- the work arrangement according to the image arrangement (S232, S233, S240) can be presented to the user (S243). Therefore, the user of the inkjet printing system 10 simply arranges the plurality of workpieces 90 on the pallet 80 according to the workpiece arrangement presented by the inkjet printing system 10, and the inkjet printing system 10 to the plurality of workpieces 90 on the pallet 80.
- the total time required for printing can be reduced.
- the inkjet printing system 10 can make settings that need to be executed by the user for efficient printing on the plurality of workpieces 90 on the pallet 80 easier than ever before.
- the plurality of print images 104d arranged in the main scanning direction indicated by the arrow 20a have the pallet number “1” and the main scanning column number “1” shown in FIG. 18 if the specific printing conditions are the same. Even if one of the work type 104c and the print image 104d itself is different from each other like the four print images 104d, there is no problem in reducing the total time required for printing in the inkjet printer 20.
- the print information 104b includes a print number 104f that is the number of prints of the print image 104d.
- the inkjet printing system 10 does not require the user to specify a plurality of pieces of print information 104b having the same work type 104c, print image 104d, and print condition 104e one by one.
- the setting of the print information 104b by the user can be facilitated. That is, the inkjet printing system 10 can further facilitate the settings that need to be performed by the user for efficient printing on the plurality of workpieces 90 on the pallet 80.
- the inkjet printing system 10 may be configured such that the print number 104f cannot be included in the print information 104b.
- the inkjet printing system 10 when the plurality of print images 104d having different specific printing conditions are arranged in the main scanning direction indicated by the arrow 20a, the number of times the pallet 80 is replaced by the transport device 40, the supply device 50, and the collection device 60 is reduced. In this case, the printing time required when the plurality of print images 104d are arranged in the main scanning direction indicated by the arrow 20a is necessary when the plurality of print images 104d are not arranged in the main scanning direction indicated by the arrow 20a. When the printing time is shorter (YES in S237), the image arrangement is determined in a state where the plurality of print images 104d are arranged in the main scanning direction indicated by the arrow 20a (S240, S242).
- the inkjet printing system 10 can present to the user a work layout that takes into account the time for automatic replacement of the pallet 80 by the transport device 40, the supply device 50, and the collection device 60. Compared with the configuration in which the work arrangement not considering the time for automatic replacement of the pallet 80 by the supply device 50 and the collection device 60 is presented to the user, it is necessary for printing on the plurality of workpieces 90 on the pallet 80. Total time can be reduced. That is, the inkjet printing system 10 can further increase the efficiency of printing on the plurality of workpieces 90 on the pallet 80.
- a configuration for presenting the user with a work layout that does not consider the time for automatic replacement of the pallet 80 by the transport device 40, the supply device 50, and the collection device 60 for example, a plurality of print images with different specific print conditions
- the inkjet printing system 10 is configured to present a user with a work arrangement in which a plurality of print images 104d having different specific printing conditions are not aligned in the main scanning direction indicated by the arrow 20a, that is, after the process of S234, S235.
- the inkjet printing system 10 is configured to present to the user a work layout in which a plurality of main scanning row groups in which the number of print images 104d is four or less even if they are integrated, that is, S236 and S239. After the process of S240, the process of S240 may be executed without executing S237.
- the inkjet printer 20 includes a plurality of print images 104d having the same predetermined conditions such as the resolution, the number of passes, the presence / absence of a white background, and the number of clear coats among the print conditions 104e.
- the image arrangement is determined in a state of being aligned in the main scanning direction indicated by the arrow 20a (S233). That is, the resolution, the number of passes, the presence / absence of white background, and the number of clear coats when the print image 104d is printed constitute the specific printing conditions of the present invention in this embodiment.
- the specific printing conditions of the present invention may be different from the conditions in the present embodiment.
- the inkjet printer 20 performs at least a part of a series of printing operations in common for a plurality of print images 104d arranged in the main scanning direction indicated by the arrow 20a even if the presence or absence of a white background is different.
- the specific printing condition may not include the presence or absence of a white background.
- the inkjet printer 20 performs at least a part of a series of printing operations in common for a plurality of print images 104d arranged in the main scanning direction indicated by the arrow 20a even if the number of clear coats is different. In the case where the number of clear coats is not included in the specific printing conditions.
- the inkjet printer 20 may perform at least a part of a series of printing operations in common for a plurality of print images 104d arranged in the main scanning direction indicated by the arrow 20a even if the resolutions are different. May not include the resolution in the specific printing conditions.
- the specific printing conditions of the present invention are the four conditions of the resolution, the number of passes, the presence / absence of white background, and the number of clear coats among the printing conditions 104e. That is, if there are other conditions in the printing condition 104e in addition to the resolution, the number of passes, the presence / absence of a white background, and the number of clear coats, the conditions are specified in the present embodiment. It is not a printing condition. However, the specific printing conditions of the present invention may be all of the printing conditions 104e.
- the inkjet printer 20 includes a display unit 102 as an information output unit of the present invention.
- the information output unit of the present invention may be a device other than the display unit 102 as long as it is a device that can output workpiece placement information to the user.
- the information output unit of the present invention may be a printer that outputs work placement information to a user by printing the work placement information on a recording medium such as paper.
- the inkjet printer 20 is an apparatus that prints an image using ultraviolet curable ink in the present embodiment, but may be an apparatus that prints an image using ink other than ultraviolet curable ink, such as solvent ink.
- Inkjet printing system 20 Inkjet printer 20a Arrow (arrow indicating main scanning direction) 20b Arrow (arrow indicating the sub-scanning direction) 33 Recording head 35 Carriage drive unit (relative movement device) 40 Conveying device (table changing device) 41 Pallet guide mechanism (relative movement device) 50 Supply device (base exchange device) 60 Recovery device (base exchange device) 80 pallets (medium mounting table) 90 work (target medium) 100 Computer 102 Display section (information output section) 104a Inkjet printing control program 104b Print information 104c Work type (medium type) 104d Print image 104e Print condition 104f Number of prints (number of print images printed) 105a Print information receiving means 105b Image arrangement determining means 105c Work arrangement output means (medium arrangement output means) 105d Print execution means
Landscapes
- Ink Jet (AREA)
- Accessory Devices And Overall Control Thereof (AREA)
- Record Information Processing For Printing (AREA)
Abstract
Description
Light Emitting Diode)などの紫外線照射装置34とを搭載している。
Programmable Read Only Memory)などの記憶デバイスである記憶部22と、インクジェットプリンター20全体を制御する制御部23とを備えている。
ROM(Read Only Memory)と、CPUの作業領域として用いられるRAM(Random Access Memory)とを備えている。CPUは、ROMまたは記憶部22に記憶されているプログラムを実行するようになっている。
Hard Disk Drive)などの記憶デバイスである記憶部104と、コンピューター100全体を制御する制御部105とを備えている。コンピューター100は、例えばPC(Personal Computer)などのコンピューターによって構成されている。
Versatile Disk)などの記憶媒体からコンピューター100に追加でインストールされても良いし、ネットワーク上からコンピューター100に追加でインストールされても良い。
20 インクジェットプリンター
20a 矢印(主走査方向を示す矢印)
20b 矢印(副走査方向を示す矢印)
33 記録ヘッド
35 キャリッジ駆動部(相対移動装置)
40 搬送装置(台交換装置)
41 パレットガイド機構(相対移動装置)
50 供給装置(台交換装置)
60 回収装置(台交換装置)
80 パレット(媒体載置台)
90 ワーク(対象媒体)
100 コンピューター
102 表示部(情報出力部)
104a インクジェット印刷制御プログラム
104b 印刷情報
104c ワーク種類(媒体種類)
104d 印刷画像
104e 印刷条件
104f 印刷個数(印刷画像の印刷の個数)
105a 印刷情報受付手段
105b 画像配置決定手段
105c ワーク配置出力手段(媒体配置出力手段)
105d 印刷実行手段
Claims (4)
- インクを吐出する記録ヘッドと、印刷される対象の媒体である対象媒体が複数載置可能である媒体載置台に対して主走査方向および副走査方向に前記記録ヘッドを相対的に移動させる相対移動装置と、情報を出力する情報出力部とを備えているインクジェット印刷システムであって、
前記対象媒体の種類である媒体種類と、この対象媒体に印刷される予定の画像である印刷画像と、この印刷画像の印刷条件とを含む情報である印刷情報を受け付ける印刷情報受付手段と、前記印刷情報受付手段によって受け付けられた前記印刷情報に含まれている前記印刷画像の前記媒体載置台上での配置である画像配置を決定する画像配置決定手段と、前記画像配置決定手段によって決定された前記画像配置に応じた前記対象媒体の配置である媒体配置を前記情報出力部に出力させる媒体配置出力手段と、前記記録ヘッドおよび前記相対移動装置によって前記媒体載置台上の前記対象媒体に印刷を実行する印刷実行手段とを備えており、
前記印刷実行手段は、前記印刷情報受付手段によって受け付けられた前記印刷情報に含まれている前記印刷画像および前記印刷条件と、前記画像配置決定手段によって決定された前記画像配置とに基づいて印刷を実行し、
前記画像配置決定手段は、前記印刷条件のうち予め定められた条件である特定印刷条件が同一の複数の前記印刷画像が前記主走査方向に並ぶ状態で前記画像配置を決定することを特徴とするインクジェット印刷システム。 - 前記印刷情報は、前記印刷画像の印刷の個数が含まれていることを特徴とする請求項1に記載のインクジェット印刷システム。
- 複数の前記媒体載置台のうち印刷される対象の媒体載置台を自動で交換する台交換装置を備えており、
前記印刷実行手段は、前記印刷情報受付手段によって受け付けられた前記印刷情報に含まれている前記印刷画像および前記印刷条件と、前記画像配置決定手段によって決定された前記画像配置とに基づいて、前記記録ヘッド、前記相対移動装置および前記台交換装置によって前記媒体載置台上の前記対象媒体に印刷を実行し、
前記画像配置決定手段は、前記特定印刷条件が異なる複数の前記印刷画像が前記主走査方向に並ぶと前記台交換装置による前記媒体載置台の交換の回数が減少する場合に、この複数の印刷画像が前記主走査方向に並ぶ状態で必要になる印刷の時間が、この複数の印刷画像が前記主走査方向に並ばない状態で必要になる印刷の時間より短いとき、この複数の印刷画像が前記主走査方向に並ぶ状態で前記画像配置を決定することを特徴とする請求項1または請求項2に記載のインクジェット印刷システム。 - インクを吐出する記録ヘッドと、印刷される対象の媒体である対象媒体が複数載置可能である媒体載置台に対して主走査方向および副走査方向に前記記録ヘッドを相対的に移動させる相対移動装置とを備えているインクジェットプリンターと、情報を出力する情報出力部を備えていて前記インクジェットプリンターを制御するコンピューターとを備えているインクジェット印刷システムの前記コンピューターによって実行されるインクジェット印刷制御プログラムであって、
前記対象媒体の種類である媒体種類と、この対象媒体に印刷される予定の画像である印刷画像と、この印刷画像の印刷条件とを含む情報である印刷情報を受け付ける印刷情報受付手段、前記印刷情報受付手段によって受け付けられた前記印刷情報に含まれている前記印刷画像の前記媒体載置台上での配置である画像配置を決定する画像配置決定手段、前記画像配置決定手段によって決定された前記画像配置に応じた前記対象媒体の配置である媒体配置を前記情報出力部に出力させる媒体配置出力手段、および、前記記録ヘッドおよび前記相対移動装置によって前記媒体載置台上の前記対象媒体に印刷を実行する印刷実行手段として前記コンピューターを機能させ、
前記印刷実行手段は、前記印刷情報受付手段によって受け付けられた前記印刷情報に含まれている前記印刷画像および前記印刷条件と、前記画像配置決定手段によって決定された前記画像配置とに基づいて印刷を実行し、
前記画像配置決定手段は、前記印刷条件のうち予め定められた条件である特定印刷条件が同一の複数の前記印刷画像が前記主走査方向に並ぶ状態で前記画像配置を決定することを特徴とするインクジェット印刷制御プログラム。
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EP13857985.9A EP2927009B1 (en) | 2012-11-30 | 2013-11-29 | Ink-jet printing system and ink-jet printing control program |
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JP6772767B2 (ja) * | 2016-11-09 | 2020-10-21 | セイコーエプソン株式会社 | データ構造、サーバー、データ生成方法 |
JP6946078B2 (ja) * | 2017-06-30 | 2021-10-06 | ローランドディー.ジー.株式会社 | 合成ファイル生成装置及びそれを備えた印刷システム、並びに合成ファイルを生成するためのコンピュータプログラム |
JP6999457B2 (ja) * | 2017-06-30 | 2022-01-18 | ローランドディー.ジー.株式会社 | 印刷データ生成装置及びそれを備えた印刷システム、並びに印刷データ生成用のコンピュータプログラム |
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JP2009073638A (ja) | 2007-09-21 | 2009-04-09 | Mimaki Engineering Co Ltd | 印刷装置 |
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CN104822532A (zh) | 2015-08-05 |
CN104822532B (zh) | 2016-11-23 |
JP2014108563A (ja) | 2014-06-12 |
EP2927009B1 (en) | 2018-02-28 |
EP2927009A1 (en) | 2015-10-07 |
EP2927009A4 (en) | 2017-03-15 |
US9205688B2 (en) | 2015-12-08 |
KR20150064207A (ko) | 2015-06-10 |
US20150314620A1 (en) | 2015-11-05 |
JP6129530B2 (ja) | 2017-05-17 |
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