JP2004262092A - Printer and its controlling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To grasp progress conditions of printing exactly in a printer. <P>SOLUTION: The printer 11 comprises a section 45 for storing image data, a section 46 for storing print data based on the image data, and a section 47 for storing thumbnail image data displaying a thumbnail image on a monitor section 18. When a menu button 17b, or the like, is operated, a CPU 41 performs printing on a sheet based on the print data at the print data storage section 46. The CPU 41 also stores the range of image printed on the sheet, as progress data, in a progress data storage section 48. Based on the progress data in the progress data storage section 48, the CPU 41 determines the coordinate of a thumbnail image corresponding to each coordinate of the monitor section 18. Consequently, the position of the thumbnail image being displayed on the monitor section 18 is varied as printing progresses. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a printing apparatus and a control method thereof.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, image data obtained by a digital camera or the like is transferred to a printing apparatus, and an image is printed from a printing apparatus on a recording medium such as paper based on the image data (for example, see Japanese Patent Application Laid-Open Reference 1). In such printing, there is a possibility that an image on a recording medium obtained as a result of printing may be different from a user's imagination. Therefore, before printing, an image of an image obtained after printing is obtained in advance. Could be confirmed on a display or the like. That is, an image based on image data is displayed on a display such as a liquid crystal provided in a digital camera or a printing apparatus, and an image of an image on a recording medium obtained as a result of printing can be confirmed. Was.
[0003]
Then, when the user confirms the image of the print image on a display or the like and inputs an instruction to start printing via input means or the like, printing is performed.
[0004]
[Patent Document 1]
JP-A-2003-9056
[0005]
[Problems to be solved by the invention]
By the way, in the printing as described above, there is a display that displays "printing" on the display in order to be able to confirm the progress of the printing. However, it is difficult to grasp a detailed situation, such as how much printing is being performed, only by displaying the characters “printing”. Therefore, the user has intuitively predicted the progress of printing and obtained the recording medium discharged from the discharge tray of the printing apparatus at a timing when the printing was considered to be completed.
[0006]
As a result, there is a possibility that the user may mistakenly think that printing is being performed even though printing in the printing apparatus has been completed, and the recording medium may not be easily acquired from the discharge tray. Conversely, even if the user thinks that printing on the printing device has been completed, the printing has not actually been completed on the printing device, and the user does not have to wait for the recording medium to be ejected from the ejection tray. There was a possibility that such a phenomenon would not occur.
[0007]
SUMMARY An advantage of some aspects of the invention is to provide a printing apparatus and a control method for the printing apparatus, which can accurately grasp a printing progress state.
[0008]
[Means for Solving the Problems]
The present invention provides a data conversion unit for converting image data into print data, a printing unit for printing a print image on a recording medium based on the print data, and a confirmation unit on a screen based on the image data. An image display unit for displaying an image, wherein a display for changing a position of the confirmation image on the screen of the image display unit based on progress data indicating a progress of printing by the printing unit. A position changing means was provided.
[0009]
Therefore, according to the present invention, as the printing of the print image on the recording medium progresses, the position of the confirmation image displayed on the screen of the image display means changes. As a result, the progress of printing by the printing unit can be accurately grasped based on the position of the confirmation image on the screen of the image display unit.
[0010]
In this printing apparatus, the progress data is data indicating to what extent the print image has been printed on the recording medium.
According to this, the position of the confirmation image on the screen of the image display means is determined based on the result of actually printing the print image on the recording medium. Can be grasped. For example, if the printing progress is determined not by the result of actual printing but by the ejection speed of the recording medium or the like, the confirmation on the screen of the image display means is performed even though the printing is not actually performed. There is a possibility that the position of the use image may change, but according to the present invention, such a case does not occur.
[0011]
In the printing apparatus, the printing unit includes a discharging unit that discharges the recording medium in a predetermined direction in accordance with printing of the print image on the recording medium, and the image displaying unit is configured to output the recording medium based on the progress data. And means for moving a position of the confirmation image on the screen in a direction coinciding with a discharge direction of the recording medium by the discharge unit.
[0012]
According to this, as the print image is printed on the recording medium, and as the recording medium is ejected in a predetermined direction by the ejection means, the position of the confirmation image on the screen of the image display means is changed in the ejection direction of the recording medium Will move in the same direction as. Therefore, the movement of the recording medium and the movement of the confirmation image on the screen of the image display means can be seen to be synchronized, and the progress of printing by the printing means can be grasped more specifically. be able to.
[0013]
In this printing apparatus, the display position changing unit is a unit that displays the confirmation image on the screen in the same size as the print image.
According to this, it is possible to make the size of the print image printed on the recording medium equal to the size of the confirmation image displayed on the screen of the image display means, and to grasp the image of the progress of printing by the print means. Can be easier.
[0014]
The present invention provides a data conversion unit for converting image data into print data, a printing unit for printing a print image on a recording medium based on the print data, and a confirmation unit on a screen based on the image data. A method of controlling a printing apparatus, comprising: an image display unit for displaying an image, wherein a step of obtaining progress data indicating a progress of printing by the printing unit; and a step of displaying the screen of the image display unit based on the progress data. Changing the position of the confirmation image above.
[0015]
Therefore, according to the present invention, as the printing of the print image on the recording medium progresses, the position of the confirmation image displayed on the screen of the image display means changes. As a result, the progress of printing by the printing unit can be accurately grasped based on the position of the confirmation image on the screen of the image display unit.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
[0017]
As shown in FIG. 1, a printer 11 as a printing device includes a case 12, a paper feeding device 14 provided on the back side of the case 12, and a printing unit 15 housed in the case 12. . The case 12 has a substantially rectangular parallelepiped shape in the present embodiment, and an operation panel 17 and a monitor 18 as a screen are provided on the upper surface 12a. A card slot 19 is provided on the front surface 12 b of the case 12.
[0018]
The operation panel unit 17 includes an operation screen 17a for displaying various setting information, and a plurality of menu buttons 17b for selecting and determining a menu displayed on the operation screen 17a. The operation screen 17a is a monochrome liquid crystal in the present embodiment, and is, for example, a menu for allowing the user to select and set the type of output paper (cut sheet or roll paper), paper size (A4 or the like), layout, photo selection, and the like. Display the screen. The menu button 17b is a power switch for turning on the power to the printer 11, an operation switch for selecting and determining a menu screen displayed on the operation screen 17a, and starting printing.
[0019]
The monitor section 18 can display various images, and is a color liquid crystal monitor in the present embodiment. In the present embodiment, the resolution of the monitor unit 18 is 240 × 230 dots as shown in FIG. 2, and the area is defined by the origin (A1 (1), A1 (1), It is assumed to be represented by coordinates from (B1 (1)) to (A1 (240), B1 (230)) located at the upper right corner.
[0020]
As shown in FIG. 1, the card slot 19 is configured so that a memory card 20 is removably stored. The memory card 20 is provided with a flash memory 21, and the flash memory 21 stores image data captured by a digital camera, for example. Therefore, when the memory card 20 is stored in the card slot 19, the image data in the flash memory 21 is read by the printer 11.
[0021]
The paper feeder 14 includes a sheet feeder 23 for setting cut sheets and a roll paper support 24 for setting roll paper. The sheet P1 as a recording medium set in the sheet feeding device 14 is fed into the case 12.
[0022]
The printing unit 15 is of an ink jet type, and includes a guide member 26, a carriage 27, an ink cartridge 28, a recording head 29, and a platen 31. The guide member 26 is disposed in the case 12 in a direction indicated by an arrow F1 in the drawing, that is, in a direction (main scanning direction) orthogonal to the sheet feeding direction of the sheet P1. The carriage 27 is slidably supported along the guide member 26. The carriage 27 is connected to a carriage motor 33 via a timing belt 34, and is driven in the main scanning direction by driving the carriage motor 33.
[0023]
The ink cartridge 28 stores ink and is detachably mounted on the upper surface of the carriage 27. Further, a recording head 29 is provided on a lower side surface of the carriage 27 and receives supply of ink from the ink cartridge 28. The recording head 29 includes a nozzle driver (not shown) made of a piezoelectric vibrator, and ejects ink droplets downward from a nozzle forming surface (not shown) based on the vibration action of the nozzle driver.
[0024]
The platen 31 is disposed below the scan of the recording head 29 so as to be parallel to the guide member 26. The sheet P1 fed by the sheet feeding device 14 is guided on the platen 31. The sheet P1 guided on the platen 31 is conveyed in a sub-scanning direction orthogonal to the scanning direction of the carriage 27 by a sheet feeding means (not shown). Are ejected, characters and images are printed.
[0025]
Next, an electrical configuration of the printer 11 according to the first embodiment will be described.
FIG. 3 is an electric block circuit diagram for explaining an electric configuration of the printer 11. 3, a printer 11 includes a CPU 41 as a data conversion unit, an image display unit, and a display position changing unit, a ROM 42, a RAM 43, an image data storage unit 45, a print data storage unit 46, a thumbnail image data storage unit 47, and progress data storage. A part 48 is provided. These are connected by a bus 49. The CPU 41 is connected to the operation panel unit 17 via a bus 49, outputs data for displaying a menu screen on the operation screen 17 a of the operation panel unit 17, and outputs the menu button of the operation panel unit 17. The operation signal from 17b is input. The CPU 41 is connected to the monitor unit 18 via a bus 49 and outputs various image data to the monitor unit 18.
[0026]
Further, the CPU 41 is connected to a paper feed motor 53, the carriage motor 33, and the recording head 29 via a print control unit 52, and a drive control for driving and controlling the paper feed motor 53, the carriage motor 33, and the recording head 29. Output a signal.
[0027]
Further, the CPU 41 is connected to the card slot 19 via a card I / F unit 51. That is, the CPU 41 can read image data from the flash memory 21 of the memory card 20 stored in the card slot 19. In the present embodiment, it is assumed that image data D0 of 6000 × 5750 dots is stored in the flash memory 21, and the CPU 41 can read the image data D0 via the card I / F unit 51. It has become.
[0028]
The CPU 41 is connected to the image data storage unit 45, and the image data storage unit 45 stores the image data D0 read from the memory card 20 by the CPU 41. That is, the image data D0 is updated to new image data D0 every time the CPU 41 reads data from the memory card 20 via the card I / F unit 51 and the card slot 19.
[0029]
Further, the CPU 41 is connected to the print data storage unit 46. The print data storage unit 46 stores print data D1. The print data D1 is data created by converting the image data D0 into the CMYK format, and is created and updated every time the CPU 41 reads new image data D0 from the memory card 20. It has become. In the present embodiment, printing is performed by the printer 11 based on the print data D1, so that a print image G1 of 6000 × 5750 dots is displayed on the sheet P1 as shown in FIG. And The area of the print image G1 is defined by the coordinates up to the upper right corner (X1 (6000, Y1 (5750)) with the origin at the lower left corner shown in FIG. 4 (X1 (1), Y1 (1)). Shall be expressed.
[0030]
As shown in FIG. 3, the CPU 41 is connected to the thumbnail image data storage unit 47. The thumbnail image data storage unit 47 stores thumbnail image data D2 to be displayed on the monitor unit 18. The thumbnail image data D2 is data created by thinning out the image data D0 and reducing the data amount, and is created each time the CPU 41 reads new image data D0 from the memory card 20. , Is to be updated.
[0031]
In the present embodiment, the thumbnail image data D2 is data created by reducing the image data D0 to 1/625 in order to match the resolution of the monitor unit 18. The thumbnail image data D2 is used to display a thumbnail image G2 having a resolution of 240 × 230 dots as shown in FIG. The area of the thumbnail image G2 extends from the origin (α1 (1), β1 (1)) located at the lower left corner shown in FIG. 5 to (α1 (240), β1 (230)) located at the upper right corner. Shall be represented by the coordinates of
[0032]
As shown in FIG. 3, the CPU 41 is connected to a progress data storage unit 48, and stores the progress data storage unit 48 on the sheet P1 when the printer 11 performs printing based on the print data D1. The progress data D3 for indicating to what extent printing has been performed is stored. More specifically, the progress data D3 is data that expresses the printed area of the print data D1 using the coordinates Y1 (1) to Y1 (5750) in the sub-scanning direction. For example, as shown in FIG. 6, when printing up to Y1 (3000) has been completed in the sub-scanning direction, the progress data D3 is stored as “Y1 (3000)”. In this embodiment, the progress data D3 is updated by the CPU 41 each time the carriage 27 makes one reciprocation in the main scanning direction along the guide member 26.
[0033]
As shown in FIG. 3, the CPU 41 operates according to various programs stored in the ROM 42, and stores the calculation processing results and the like in the primary RAM 43. More specifically, the ROM 42 includes an image data update program, a print data update program, a thumbnail image data update program, a print program, a thumbnail image display program, and other various programs.
[0034]
When the memory card 20 is stored in the card slot 19, the image data update program updates the image data D0 stored in the image data storage unit 45 to the image data D0 in the flash memory 21 of the memory card 20. It is a program to do. That is, when the memory card 20 is stored in the card slot 19, the CPU 41 updates the image data D0 stored in the image data storage unit 45 to the image data D0 of the memory card 20 according to the image data update program. .
[0035]
When the image data D0 stored in the image data storage unit 45 is updated, the print data update program converts the updated image data D0 into CMYK data to create the print data D1, and generates the print data D1. This is a program for updating the print data D1 stored in the storage unit 46. That is, when the image data D0 stored in the image data storage unit 45 is updated, the CPU 41 converts the new image data D0 into CMYK data according to the print data update program and stores the new image data D0 in the print data storage unit 46. The updated print data D1 is updated.
[0036]
When the image data D0 stored in the image data storage unit 45 is updated, the thumbnail image data update program creates the thumbnail image data D2 by thinning out the updated image data D0, and stores the thumbnail image data. This is a program for updating the thumbnail image data D2 stored in the unit 47.
[0037]
That is, when the image data D0 stored in the image data storage unit 45 is updated, the CPU 41 creates the thumbnail image data D2 based on the new image data D0 according to the thumbnail image data update program, and The thumbnail image data D2 stored in the data storage unit 47 is updated.
[0038]
When the menu button 17b or the like of the operation panel unit 17 is operated to input a request to print the image data D0, the print program is based on the print data D1 currently stored in the print data storage unit 46. Is a program for performing printing on the sheet P1. It is also a program for updating the progress data D3 in the progress data storage unit 48 according to the printing progress.
[0039]
That is, when the menu button 17b or the like of the operation panel section 17 is operated and receives an input signal indicating that the user wants to print the image data D0, the CPU 41 executes the paper feed motor via the print control section 52 according to the print program. 53, the carriage motor 33, and the recording head 29 are driven. Then, printing based on the print data D1 in the print data storage unit 46 is performed on the sheet P1. During printing, the CPU 41 expresses the printed area by coordinates Y1 (1) to Y1 (5750) in the sub-scanning direction each time the carriage 27 makes one reciprocation along the guide member 26. It is stored as data D3.
[0040]
When the menu button 17b or the like of the operation panel unit 17 is operated to input a request to print the image data D0, the thumbnail image display program executes a process based on the thumbnail image data D2 in the thumbnail image data storage unit 47. This is a program for displaying the thumbnail image G2 on the monitor unit 18. Further, the program is a program for changing the position of the thumbnail image G2 displayed on the monitor unit 18 based on the progress data D3 of the progress data storage unit 48 when the thumbnail image G2 is displayed on the monitor unit 18.
[0041]
That is, when the menu button 17b or the like of the operation panel unit 17 is operated to receive an input signal indicating that the user wants to print the image data D0, the CPU 41 monitors the monitor based on the thumbnail image data D2 according to the thumbnail image display program. The thumbnail image G2 is displayed on the section 18. When displaying the thumbnail image G2 on the monitor unit 18, the CPU 41 changes the position of the thumbnail image G2 to be displayed on the monitor unit 18 based on the progress data D3 in the progress data storage unit 48.
[0042]
Next, the operation of the printer 11 according to the first embodiment configured as described above will be described.
First, as shown in FIG. 1, when the memory card 20 is stored in the card slot 19 of the printer 11, the CPU 41 stores the image data D0 stored in the image data storage unit 45 in accordance with the image data update program. Update to the image data D0 of the memory card 20.
[0043]
Then, the CPU 41 converts the image data D0 stored in the image data storage unit 45 into CMYK data according to the print data update program, and converts the image data D0 into print data D1 stored in the print data storage unit 46. Update. In the present embodiment, the printer 11 performs printing based on the print data D1 so that the print image G1 of 6000 × 5750 dots is printed on the sheet P1 as shown in FIG. Has become.
[0044]
Thereafter, the CPU 41 thins out the image data D0 stored in the image data storage unit 45 to create thumbnail image data D2 according to the thumbnail image update program, and the thumbnail image stored in the thumbnail image data storage unit 47. The data D2 is updated. In the present embodiment, an image G2 of 240 × 230 dots as shown in FIG. 5 is displayed by performing display based on the thumbnail image data D2 on the monitor unit 18. .
[0045]
In this state, when the menu button 17b or the like of the operation panel unit 17 is operated to receive an input signal indicating that the user wants to print the image data D0, the CPU 41 executes the print control unit in accordance with the print program. A paper feed motor 53, a carriage motor 33, and a recording head 29 are driven via 52. Then, printing based on the print data D1 in the print data storage unit 46 is performed on the sheet P1.
[0046]
Further, at this time, every time the carriage 27 reciprocates along the guide member 26 according to the printing program, the CPU 41 sets the coordinates Y1 of the last printed portion of the print image G1 on the sheet P1 in the sub-scanning direction. (1) to Y1 (5750) are extracted. The extracted coordinates are used as the progress data D3, and the progress data D3 in the progress data storage unit 48 is updated.
[0047]
At this time, the CPU 41 executes processing according to the flowchart shown in FIG. 7 according to the thumbnail image display program. That is, as shown in FIG. 7, first, the CPU 41 sets the coordinates of the thumbnail image G2 corresponding to the coordinates (A1 (x), B1 (y)) of the monitor unit 18 (see FIG. 2) to (α1 (x ), Β1 (y)) (see FIG. 5). That is, as shown in FIG. 8, the thumbnail image G2 of 240 × 230 dots is displayed on the monitor unit 18 also having the resolution of 240 × 230 dots in a state where the positions of the respective coordinates coincide with each other. The whole is displayed (step S1).
[0048]
Next, the CPU 41 temporarily stores the coefficient n as “1” in the RAM 43 according to the thumbnail image display program (step S2). Note that the coefficient n is a number for determining the display position of the thumbnail image G2 to be displayed on the monitor unit 18.
[0049]
Thereafter, the CPU 41 reads the progress data D3 from the progress data storage unit 48, and determines whether the coordinates represented by the progress data D3 are equal to or greater than Y1 (25 × n) obtained from the value of the coefficient n temporarily stored in the RAM 43. It is determined whether or not it is (step S3). That is, for example, when the coefficient n is “1”, it is determined whether the printing of the print data D1 has already been performed up to the position of the coordinate Y1 (25).
[0050]
If the coordinates represented by the progress data D3 are equal to or greater than Y1 (25 × n) (YES in step S3), the process proceeds to step S4. On the other hand, if the coordinates represented by the progress data D3 are smaller than Y1 (25 × n) (NO in step S3), the CPU 41 proceeds with printing based on the print data D1, and sets the coordinates of the progress data D3 to Y1 (25 × n). The determination in step S3 is repeated until n).
[0051]
Then, when proceeding to step S4, the CPU 41 sets the coordinates of the thumbnail image G2 corresponding to the respective coordinates (A1 (x), B1 (y)) of the monitor unit 18 to (α1 (x), β1 (y + n)). I do. That is, the thumbnail image G2 is displayed on the monitor unit 18 in a state where the thumbnail image G2 has moved downward compared to the state in step S1 (see FIG. 9). The degree of downward movement is proportional to the coefficient n. Further, in the thumbnail image G2, an area that is no longer located on the monitor unit 18 by moving downward is not displayed.
[0052]
Then, when the thumbnail image G2 is displayed, the CPU 41 updates the coefficient n to “n + 1” (step S5). In step S6, the processing from step S3 to step S5 until the value of the coefficient n becomes 230 or more. repeat. Then, when the value of the coefficient n becomes 230 or more, the CPU 41 ends the processing of the thumbnail image display program. FIG. 9 shows the state of the thumbnail image G2 when the value of the coefficient n is “120”. Then, at this time, as shown in FIG. 6, the area up to Y1 (120 × 25), that is, the area up to Y1 (3000) of the print image G1 is printed on the sheet P1.
[0053]
That is, as the CPU 41 performs the processing according to the thumbnail image display program, the thumbnail image G2, which was initially displayed on the monitor 18 as a whole, is changed in proportion to the progress of the printing of the print image G1 on the sheet P1. , And moves downward on the monitor unit 18. The reason why 25 is added to the coefficient n is that the length of one side of the print image G1 is 25 times the length of the corresponding side of the thumbnail image G2, so that the moving speed of the thumbnail image G2 is Is smaller than the speed at which the print image G1 increases.
[0054]
That is, since the moving speed of each of the images G1 and G2 is adjusted according to the size of each of the images G1 and G2, the printing of the print image G1 is started and the thumbnail image G2 is displayed on the monitor unit 18. Then, the printing of the print image G1 is completed, and the thumbnail image G2 disappears from the monitor unit 18.
[0055]
As described above, the user can accurately grasp the progress of the print image G1 printed on the sheet P1 from the movement of the thumbnail image G2 displayed on the monitor unit 18. For example, when the entire thumbnail image G2 is displayed on the monitor unit 18, it can be understood that printing has not been started yet. When about half of the thumbnail image G2 is displayed on the monitor 18, it can be understood that printing has progressed by about half. Further, when the thumbnail image G2 disappears from the monitor section 18, it is understood that the printing has been completed.
[0056]
According to the first embodiment, the following effects can be obtained.
(1) In the first embodiment, the position of the thumbnail image G2 displayed on the monitor 18 changes as the printing of the print image G1 on the sheet P1 progresses. As a result, the progress of printing by the printer 11 can be accurately grasped from the position of the thumbnail image G2 on the monitor unit 18.
[0057]
(2) In the first embodiment, the position of the thumbnail image G2 on the screen of the monitor unit 18 is determined based on the progress data D3 indicating how far the print image G1 has been printed on the sheet P1. I did it. Accordingly, since the position of the thumbnail image G2 is determined based on the result of the actual printing, the printing progress can be more accurately represented. For example, when the position of the thumbnail image G2 on the monitor unit 18 is determined by the discharge speed of the sheet P1, the position of the thumbnail image G2 on the monitor unit 18 changes even though printing is not actually performed. However, according to the present embodiment, such a situation does not occur.
[0058]
(Second embodiment)
Hereinafter, a second embodiment of the present invention will be described with reference to FIGS. In the second embodiment, the configuration of the printer 11 of the first embodiment is changed, but detailed description of the same portions will be omitted.
[0059]
As shown in FIGS. 10 and 11, a printer 61 as a printing apparatus according to the present embodiment includes a thin substantially rectangular parallelepiped case 62. As shown in FIG. 11, a plurality of menu buttons 64 for performing various operations are provided on the back surface 62a. In addition, a monitor section 65 is provided on the upper surface 62b of the case 62 as a screen slightly smaller than the upper surface 62b. In the present embodiment, the resolution of the monitor unit 65 is set to 1000 × 700 dots.
[0060]
A paper feed unit 66 is provided on the back surface 62a of the case 62. A sheet P2 (see FIG. 14) as a recording medium is moved by a driving unit (not shown) in the direction of arrow F2 in FIG. The paper is fed to the inside of the paper 62. In addition, an ink jet type printing apparatus (not shown) similar to the printing unit 15 in the first embodiment is housed inside the case 62. Then, printing is performed on the sheet P2 fed from the sheet feeding unit 66.
[0061]
As shown in FIG. 10, the printer 61 according to the present embodiment includes a paper discharge unit 67 as a discharge unit on a front surface 62c of a case 62. The paper P2 on which an image is printed by the printing apparatus is illustrated. The sheet is discharged in the direction of the middle arrow F2.
[0062]
Further, the printer 61 of the present embodiment includes an image sensor 69 on the lower surface side of the case 62. In this embodiment, the image pickup device 69 converts photodiodes for converting the intensity of light into a voltage and storing electricity in a grid pattern to convert an image into an electric signal. The image pickup device 69 uses a charge-coupled device (CCD). Have been. Therefore, the light from the subject is incident on the image sensor 69 by turning the lower surface of the printer 61 toward the subject, and the incident light is converted into an electric signal.
[0063]
Next, an electrical configuration of the printer 61 according to the second embodiment will be described.
FIG. 12 is an electric block circuit diagram for explaining an electric configuration of the printer 61. 12, a printer 61 according to the present embodiment does not include the card slot 19 and the card I / F unit 51 according to the first embodiment. Instead, the image pickup device 69 is provided, and the CPU 41 is connected to the image pickup device 69 via the bus 49. The light incident on the image sensor 69 is converted into an electric signal and input to the CPU 41. Then, the CPU 41 creates image data D4 in RGB format from the electric signal based on an input signal from the menu button 64 or the like. Therefore, in the first embodiment, the CPU 41 acquires the image data D0 via the memory card 20, but in the present embodiment, the CPU 41 acquires the image data D0 based on the electric signal from the image sensor 69. The image data D4 is created.
[0064]
After creating the image data D4, the CPU 41 stores the image data D4 in the image data storage unit 45. Further, the CPU 41 converts the image data D4 into a CMYK format, creates print data D5, and stores the print data D5 in the print data storage unit 46. In the present embodiment, printing is performed by the printer 61 based on the print data D5, so that a print image G3 (see FIG. 14) of 1000 × 700 dots equal to the resolution of the monitor unit 65 is formed on paper. It is to be printed on P2.
[0065]
In the first embodiment, the printer 11 includes the thumbnail image data storage unit 47. However, the present embodiment does not include the thumbnail image data storage unit 47. This is because the resolution of the monitor unit 65 is equal to the resolution of the image data D4, so that the image data D4 can be used as the data to be displayed on the monitor unit 65 instead of the thumbnail image data. .
[0066]
The ROM 42 in the present embodiment includes an image data update program, a print data update program, a print program, an image display program, and other various programs. The image data update program, the print data update program, the print program, and other various programs have the same contents as the first embodiment except that the image data is obtained not from the memory card 20 but from the image sensor 69. Therefore, the detailed description is omitted.
[0067]
When the menu button 64 is operated and an input requesting printing of the image data D4 is input, the image display program shown in FIG. 13 is executed based on the image data D4 stored in the image data storage unit 45. Thus, the program is for displaying the confirmation image G4 on the monitor unit 65. Further, when displaying the confirmation image G4, the position of the confirmation image G4 to be displayed on the monitor unit 65 is determined based on the progress data D3 of the progress data storage unit 48 as shown in FIG. It is also a program to move to the side.
[0068]
That is, when the menu button 64 or the like is operated and the CPU 41 receives an input signal indicating that the user wants to print the image data D4, the CPU 41 performs the processing based on the image data D4 stored in the image data storage unit 45 according to the image display program. Then, the confirmation image G4 is displayed on the monitor unit 65. Further, when displaying the confirmation image G4, the CPU 41 moves the position of the confirmation image G4 to be displayed on the monitor 65 to the paper discharge unit 67 side based on the progress data D3 of the progress data storage unit 48.
[0069]
Next, the operation of the printer 61 according to the second embodiment configured as described above will be described.
First, when acquiring the image data D4 from the image sensor 69, the CPU 41 of the printer 61 converts the image data D4 stored in the image data storage unit 45 into new image data D4 in the same manner as in the first embodiment. Update. After that, the CPU 41 updates the print data D5 stored in the print data storage unit 46 when the print data D5 is created in the same manner as in the first embodiment.
[0070]
In this state, when the menu button 64 or the like is operated and an input signal indicating that the image data D4 is desired to be printed is input to the CPU 41, as in the first embodiment, The CPU 41 performs printing based on the print data D5 on the paper P2 according to the print program. Further, the CPU 41 updates the progress data D3 of the progress data storage unit 48 as the printing progresses in the same manner as in the first embodiment.
[0071]
Then, at this time, in the present embodiment, the CPU 41 executes processing according to the flowchart shown in FIG. 15 according to the image display program. In this embodiment, the coordinates of the print image G3 are (X2, Y2), the coordinates of the monitor 65 are (A2, B2), and the coordinates of the confirmation image G4 displayed on the monitor 65 are (α2, β2). First, similarly to the first embodiment, the CPU 41 compares the coordinates (A2 (x), B2 (y)) of the monitor unit 65 with the coordinates (α2 (x), β2) of the confirmation image G4. (Y)) is positioned (see FIG. 13), and the entire confirmation image G4 is displayed on the monitor 65 (step S11).
[0072]
Next, the CPU 41 temporarily stores the coefficient n as “1” in the RAM 43 (step S12). Thereafter, the CPU 41 reads the progress data D3 from the progress data storage unit 48, and determines whether or not the coordinates represented by the progress data D3 are equal to or larger than Y2 (n) obtained from the value of the coefficient n temporarily stored in the RAM 43. It is determined (step S13). In the first embodiment, the progress data D3 is compared with Y1 (25 × n) in step S3. In the present embodiment, the progress data D3 and Y2 (n) are compared. I try to compare. This is because, in the second embodiment, the confirmation image G4 displayed on the monitor unit 65 and the print image G3 printed on the sheet P2 have the same resolution. This is because there is no need to adjust the moving speed of each of the images G3 and G4 in accordance with the size of.
[0073]
If the coordinates represented by the progress data D3 are equal to or larger than Y2 (n) (YES in step S13), the CPU 41 proceeds to step S14. On the other hand, if the coordinates represented by the progress data D3 are smaller than Y2 (n) (NO in step S13), the CPU 41 proceeds with printing based on the print data D5, and the coordinates of the progress data D3 become Y2 (n). Until the determination in step S13 is repeated.
[0074]
Then, when proceeding to step S14, the CPU 41 sets the coordinates of the confirmation image G4 corresponding to each coordinate of the monitor unit 65 to (α2 (x), β2 (y + n)) (step S14). That is, the confirmation image G4 is displayed on the monitor unit 65 in a state of being moved to the paper discharge unit 67 side as compared with the state of step S11 (see FIG. 14). Then, the CPU 41 updates the value of the coefficient n to “n + 1” (step S15), and repeats the processing from step S13 to step S15 in step S16 until the value of the coefficient n becomes 700 or more. Then, when the value of the coefficient n becomes 700 or more, the CPU 41 ends the processing of the image display program.
[0075]
FIG. 14 shows a state of the confirmation image G4 when the value of the coefficient n is “500”. At this time, the area up to Y2 (500) of the print image G3 has been printed on the sheet P2, and the user receives one of the confirmation image G4 and the print image G3. It looks like a connected image is formed.
[0076]
That is, when the CPU 41 performs processing in accordance with the image display program, first, as shown in FIG. 13, the entirety of the confirmation image G4 is displayed on the monitor unit 65. Thereafter, the confirmation image G4 moves in the direction of the arrow F2 in the drawing, that is, in the direction toward the paper discharge unit 67, as shown in FIG. 14, on the monitor unit 65 in proportion to the progress of printing on the paper P2. To move to.
[0077]
In the present embodiment, the print image G3 printed on the sheet P2 and the confirmation image G4 displayed on the monitor 65 have the same resolution, so that the two images G3 and G4 form a continuous connection. The image will be rendered. Accordingly, the user can discharge the confirmation image G4 displayed on the monitor unit 65 as a print image G3 on the paper P2 from the start to the end of printing of the print image G3. It is possible to see an operation as if the paper is discharged from the paper section 67.
[0078]
According to the second embodiment, the following effects can be obtained.
(3) In the second embodiment, the position of the confirmation image G4 displayed on the monitor 65 changes as the printing of the print image G3 on the sheet P2 progresses. As a result, the progress of printing by the printer 61 can be accurately grasped from the position of the confirmation image G4 on the monitor unit 65.
[0079]
(4) In the second embodiment, the position of the confirmation image G4 on the screen of the monitor 65 is determined based on the progress data D3 indicating the extent to which the print image G3 has been printed on the sheet P2. I decided to decide. Therefore, since the position of the confirmation image G4 is determined based on the result of the actual printing, the progress of printing can be more accurately represented. For example, when the position of the confirmation image G4 on the monitor 65 is determined by the discharge speed of the sheet P2, the position of the confirmation image G4 on the monitor 65 changes even though the image is not actually printed. However, according to the present embodiment, such a situation does not occur.
[0080]
(5) In the second embodiment, as the print image G3 is printed on the paper P2 and the paper P2 is discharged from the paper discharge unit 67, the position of the confirmation image G4 on the screen of the monitor 65 is The paper P2 is moved in the same direction as the discharge direction. Therefore, the movement of the paper P2 and the movement of the confirmation image G4 on the screen of the monitor 65 can be seen to be synchronized, and the progress of printing by the printer 11 can be grasped more specifically. can do.
[0081]
(6) In the second embodiment, the resolution of the print image G3 printed on the paper P2 and the resolution of the monitor unit 65 are made the same, and the print image G3 and the confirmation image G4 are displayed in the same size. It was to so. Accordingly, a series of images can be expressed by the print image G3 and the confirmation image G4, and a series of images formed by the images G2 and G4 is formed by the printing unit 67 as the printing progresses. It will move in the direction. As a result, an image of the progress of printing by the printer 11 can be grasped more specifically.
[0082]
The above embodiment may be modified as follows.
In the first and second embodiments, on the screens of the monitor units 18 and 65, based on the progress data D3 indicating the extent to which the print images G1 and G3 have been printed on the sheets P1 and P2. The positions of the thumbnail image G2 and the confirmation image G4 in are determined. This may be used as other data as progress data.
[0083]
For example, the rotation speed of the paper feed motor 53 and the rotation speed of the carriage motor 33 are used as the progress data, and the positions of the images G2 and G4 on the monitor units 18 and 65 are changed based on these values. You may make it. Further, the printers 11 and 61 are provided with sensors for recognizing the positions of the sheets P1 and P2 and the positions of the print images G1 and G3. The positions of G2 and G4 may be changed.
[0084]
Further, the time from the start of printing to the end of printing is calculated in advance based on the print data D1 and D5, and the images G2 and G4 displayed on the monitor units 18 and 65 move and disappear within that time. You may do so.
[0085]
In the first and second embodiments, the on-carriage type ink jet printing unit 15 in which the ink cartridge 28 is mounted on the carriage 27 is used as the printing unit. For this, an off-carriage type in which the ink cartridge 28 is fixed to the case 12 or the like may be used.
[0086]
Further, instead of the ink jet type, other types of printing means may be used as the printing means.
In the second embodiment, the confirmation image G4 is displayed on the monitor 65 when printing is performed.
[0087]
When the image sensor 69 is pointed at the subject R as shown in FIG. 16, the image data D4 of the subject R is acquired from the image sensor 69 in real time, and the confirmation image G4 is displayed on the monitor 65. May be displayed.
[0088]
When the menu button 64 is operated from this state, printing may be performed based on the print data D5 when the menu button 64 is operated. With this configuration, when the menu button 64 is operated in a state where the confirmation image G4 is displayed on the monitor unit 65 in real time, the confirmation displayed on the monitor unit 65 when the menu button 64 is operated is performed. The use image G4 moves in the direction of the paper discharge unit 67. Then, a print image G3 having the same size as the confirmation image G4 is printed on the sheet P2, and is discharged from the discharge unit 67. That is, it is possible to give the user an impression as if the scenery of the subject R is cut out in the range displayed on the monitor 65 and the cut-out portion is obtained as the print image G3 on the paper P2. .
[Brief description of the drawings]
FIG. 1 is a cutaway perspective view of a printer according to a first embodiment.
FIG. 2 is a front view of the monitor unit.
FIG. 3 is an electric block circuit diagram of the printer.
FIG. 4 is a conceptual diagram of a print image printed on a sheet.
FIG. 5 is a conceptual diagram of a thumbnail image.
FIG. 6 is a conceptual diagram for explaining the operation of the printer.
FIG. 7 is a flowchart for explaining the operation of the printer.
FIG. 8 is a conceptual diagram for explaining the operation of the printer.
FIG. 9 is a conceptual diagram for explaining the operation of the printer.
FIG. 10 is a perspective view of a printer according to a second embodiment.
FIG. 11 is a perspective view of the printer.
FIG. 12 is an electric block circuit diagram of the printer.
FIG. 13 is a front view of the printer.
FIG. 14 is a conceptual diagram for explaining the operation of the printer.
FIG. 15 is a flowchart for explaining the operation of the printer.
FIG. 16 is a conceptual diagram for explaining the operation of a printer in another example.
[Explanation of symbols]
D0, D4: image data, D1, D5: print data, D3: progress data, G1, G3: print image, G2: thumbnail image as a confirmation image, G4: confirmation image, P1, P2: as a recording medium Paper, 11, 61: Printer as printing device, 15: Printing means, 18, 65: Monitor section as screen, 41: Data conversion means, image display means, CPU as display position changing means, 67: Ejection means Paper output unit.

Claims (5)

Data conversion means for converting image data into print data, printing means for printing a print image on a recording medium based on the print data, and displaying a confirmation image on a screen based on the image data A printing device comprising image display means,
A printing apparatus comprising: a display position changing unit that changes a position of the confirmation image on the screen of the image display unit based on progress data indicating a progress of printing by the printing unit. The printing device according to claim 1,
The printing apparatus, wherein the progress data is data indicating to what extent the print image has been printed on the recording medium. The printing device according to claim 1, wherein
The printing unit includes a discharging unit that discharges the recording medium in a predetermined direction with the printing of the print image on the recording medium,
The image display unit is a unit that moves a position of the confirmation image on the screen in a direction coinciding with a discharge direction of the recording medium by the discharge unit based on the progress data. Printing device. The printing device according to any one of claims 1 to 3,
The printing apparatus, wherein the display position changing unit is a unit that displays the confirmation image on the screen in the same size as the print image. Data conversion means for converting image data into print data, printing means for printing a print image on a recording medium based on the print data, and displaying a confirmation image on a screen based on the image data In a control method of a printing apparatus provided with image display means,
Obtaining progress data indicating the progress of printing by the printing unit;
Changing the position of the confirmation image on the screen of the image display means based on the progress data.

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