JP4622191B2 - Inkjet recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an inkjet recording apparatus that simultaneously prints on a plurality of recording media, and more particularly to an apparatus capable of appropriately laying out images on a plurality of recording media in accordance with the size of an image to be printed.
[0002]
[Prior art]
In recent years, printers have been developed that transport recording media from a plurality of paper feeding means in parallel to a recordable area and record on a plurality of recording media almost simultaneously. A conventional printer that records on a plurality of recording media almost simultaneously is disclosed in Japanese Patent Laid-Open No. 2000-25285. This printer uses an existing image scanner mounted on the carriage of the printer to detect the presence or absence of paper used for recording and the conveyance state of each paper, and when it determines that no paper has been supplied, The output of the recording data to be recorded is stopped, and desired recording is performed only on the supplied paper.
[0003]
In the above conventional example, when paper is not supplied due to the occurrence of a so-called jam or out of paper supply, there is a problem that printing efficiency is lowered because appropriate recording data is not allocated to a recordable paper.
[0004]
Another conventional example is disclosed in Japanese Patent Laid-Open No. 2001-57634. The technique disclosed here is a technique of separating a scanner and a printer, reading a document with a combination of a scanner and a printer at a physically separated place, and outputting a copy image. By a single image reading operation, A plurality of image data suitable for various types of print output is obtained, and a printer selects any one of the image data from the plurality of image data, and an optimum image is output to each printer.
[0005]
However, although the technique disclosed here improves the printing efficiency, there is a problem that a plurality of printers are required and the cost is increased.
[0006]
Japanese Patent Laid-Open No. 2001-63151 discloses a technique for duplex printing using an apparatus that prints on a plurality of recording media almost simultaneously. For example, when a failure such as a jam occurs, a set of print recording media on which one side has already been printed performs almost simultaneous printing in units of a set, and an unprinted recording medium that has already been fed is one. The print requests stored in the storage means are rearranged so that double-sided printing is performed in units of sheets.
[0007]
However, in this conventional example, although a plurality of images can be recorded substantially simultaneously, there are problems that the degree of freedom in recording size is small and the conveyance path is complicated.
[0008]
[Problems to be solved by the invention]
The present invention relates to an ink jet printing system that improves printing efficiency by laying out image data based on recording medium data and image data to be printed in accordance with the size of the recording medium fed by a plurality of paper feeding lines. A recording device is provided.
[0009]
[Means for Solving the Problems]
The aforementioned problems are solved by the invention described below.
1. In an ink jet recording apparatus that records a plurality of recording media having different widths in parallel and moves a recording head on the recording medium that has been conveyed in parallel, and records images on the plurality of recording media substantially simultaneously. Once the image data is stored in the image memory, the recording medium to be recorded should be selected and recorded by the image recording control unit based on the recording medium data detected by the paper detection means and the image data held in the image memory. An ink jet recording apparatus that distributes an image to a plurality of recording media.
[0010]
2. 2. The ink jet recording apparatus according to 1 above, wherein an independent conveying unit is provided for each recording medium, and a sheet detection sensor for detecting the presence or absence of the recording medium is provided in the vicinity of the recordable area.
[0011]
3. In an inkjet recording apparatus for recording a plurality of recording media having different widths in parallel and moving a recording head on the recording medium that has been conveyed in parallel and recording images on the plurality of recording media substantially simultaneously, a plurality of recording media An independent conveying means is provided corresponding to the paper feed line, and a paper detection sensor for detecting the presence or absence of a recording medium is provided in the vicinity of the recordable area, and the conveying means when no paper is detected by the paper inspection sensor. The image data from the image data holding means is temporarily stored in the image memory, and based on the recording medium data detected by the paper detection means, the image data held in the image memory and the information of the paper detection sensor An ink jet recording apparatus that distributes an image to be recorded on a stopped paper feed line to a recording medium on a paper feed line that is not stopped.
[0012]
4). Any one of the items 1 to 3, wherein the plurality of recording media having different widths correspond to a width of one image data and a length of another image data. An ink jet recording apparatus according to claim 1.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described. First, general items will be described. Generally, the recording size includes an L size of 89 mm wide × 127 mm long, a 2L size of 127 mm wide × 178 mm long, a panoramic size of 89 mm wide × 254 mm long, and the like. The L size and the panorama size have the same width of 89 mm, and the 2L length 178 mm is twice the L size width 89 mm. Therefore, the roll recording medium having a width of 89 mm can print L size and panorama size, and the roll recording medium having a width of 127 mm can print L size and 2L size.
[0014]
Next, the print format means that the L size, 2L size, panorama size, etc. are vertically arranged, for example, a character is vertically written or a character is horizontally written, or a paper is horizontally placed and the character is vertically written. A form or a form in which characters are written horizontally.
[0015]
In FIG. 1, the ink jet printer 1 mainly includes a control unit 3, a recording unit 4, a paper detection unit 5, a conveyance unit 6, and a paper cutting unit 7. The image data holding means 2 stores image data including recording conditions such as print size and print form, and the image data output from the host device 8 is temporarily stored in the image memory 10 via the interface unit 9. Saved. Which part of the image memory 10 is stored is controlled by the memory write controller 15 controlled by the CPU 39.
[0016]
Then, a print layout that can be recorded by the CPU 39 is calculated, and the memory read controller 16 reads the image data from the image memory 10 according to the layout, and outputs it to the head controller 11. The head controller 11 controls the head driver 12 based on the image data to drive the recording head 13 and print a predetermined image on a recording medium.
[0017]
In addition, independent paper detection sensors 17 and 18 and paper transport motors 19 and 20 are provided corresponding to the respective recording media, and the recording media in the vicinity of the recordable area in each paper feed line by the paper detection sensors 17 and 18 are provided. The CPU 39 controls the paper transport motors 19 and 20 and can control the recording medium transport of each paper feed line independently.
[0018]
The cutter driving motor 21 is controlled by the CPU 39 and cuts the roll-shaped recording medium into a predetermined paper size according to the image size. The carriage motor 22 is controlled by the CPU 39, and moves the recording head 13 by moving the carriage in accordance with the presence / absence of the recording medium and the print form, thereby printing a predetermined image on the recording medium.
[0019]
The control of the CPU 39 will be further described with reference to FIG. When image data is sent from the host device 8, the image data is stored in the image memory 10 and recorded in the recordable area of each paper feed line by the paper detection sensors 17 and 18 provided in each paper feed line. It is detected whether the medium is being conveyed (S1). When the recording medium is detected, the size of the paper (recording medium) is subsequently detected by the paper detection sensor 14 (S2). Based on the paper size data and the image data stored in the image memory 10, the recording paper to be recorded is selected and the image data is laid out (S3), and the carriage motor 22 is driven and controlled (S4). The image data is read from the image memory 10 by the memory read controller 16 controlled by the CPU 39 and output to the head controller in accordance with the layout (S5).
[0020]
When the sheet detection sensor 17 or 18 does not detect a recording medium in the recordable area (S1), it is determined that a jam or out of sheet has occurred in the undetected sheet feeding line. For example, when the paper detection sensor 17 does not detect a recording medium in the recordable area, it is determined that a jam or a paper shortage has occurred in the paper supply line provided with the paper detection sensor 17. The layout is executed so that the image data to be recorded on the recording medium of the paper feed line is recorded on the recording medium of the paper feed line that has not been stopped (S3). Only perform image recording.
[0021]
When the jam of the stopped paper feed line is removed or the paper is replenished and the recording medium can be detected in the stopped paper feed line, image recording is also performed using this paper feed line.
[0022]
FIG. 2 is a view showing the main part of the ink jet printer. In this embodiment, the paper feed lines are two systems of X and Y. The two lines of paper feed lines X and Y can be carried independently by the paper carry motors 19 and 20. That is, the recording mediums 23 and 24 wound around the recording medium rolls 25 and 26 are sandwiched between the driving roller 27 and the driven roller 28 driven by the sheet conveying motors 19 and 20 controlled by the CPU 39, respectively. Pulled out, recorded by the recording head 13, guided by the guide roller 34, guided to the cutter 35 controlled by the CPU 39, and cut into a predetermined paper size.
[0023]
The carriage 29 moves along the guide bar 30 in the direction of the arrow. The carriage 29 is moved by controlling the carriage motor 22 by the CPU 39, moving on the recording media 23 and 24, and printing a predetermined image by the recording head 13 provided on the carriage 29. The carriage 29 is driven by a wire applied to a driving pulley 32 and a driven pulley 31 that are driven by the carriage motor 22. Reference numeral 36 denotes a recording paper holding plate.
[0024]
This will be described in more detail below. FIG. 3 is a diagram showing the recording state of the recording media 23 and 24, where the width of the recording medium 23 in the paper feed line X is W1, and the width of the recording medium 24 in the paper feed line Y is W2. For example, it is assumed that image data A, B, C, D, and E on the left side in the figure are sequentially output from the host device 8 of the image data holding unit 2. These image data are temporarily stored in the image memory 10 via the interface unit 9.
[0025]
Here, the image data A, D, and E are width W1 × length L1, the image data B is width W2 × length L2, and the image data C is width W1 × length L3. The relationship is L1 = W2 and L2 = 2W1. Specific examples of the numerical values are W1 = 89 mm, W2 = 127 mm, L1 = 127 mm, L2 = 178 mm, and L3 = 258 mm. That is, the image data A, D, and E are L size, the image data B is 2L size, and the image data C is panorama size.
[0026]
Next, the paper detection sensor 14 detects the widths W1 and W2 of the recording media 23 and 24, and the CPU 39 lays out the image data A, B, C, D, and E on the paper feed lines X and Y. In FIG. 3, the image data E and C are laid out on the paper feed line X, and the image data A, B, and D are laid out on the paper feed line Y, so that the printing is completed almost simultaneously on the paper feed lines X and Y. By doing so, the time required for printing can be shortened. G and F are image data that has already been printed in the previous layout.
[0027]
In this layout, the image data B, C, and E are placed vertically, and the image data A and D are placed horizontally. Therefore, it is necessary to control the print mode for each print sheet. This control is performed by controlling the memory read controller 16 with the CPU 39.
[0028]
FIG. 4 shows a case where a jam occurs during recording of the image data B on the paper feed line Y. When the paper detection sensor 18 detects a jam, the CPU 39 stops the paper transport motor 20 and the CPU 39 lays out the image data B in which the jam has occurred and the image data D to be recorded next on the paper feed line X. If possible, the image data is laid out on the paper feed line X side, and images are continuously recorded on the recording medium of the paper feed line X. Since the image data D can be laid out on the paper feed line X side, it is laid out next to the image data E, but the image data B cannot be laid out on the paper feed line X side. Perform recording after returning.
[0029]
FIG. 5 shows a case where a jam occurs during recording of the image data C in the paper feed line X. When the paper detection sensor 17 detects a jam, the CPU 39 stops the paper transport motor 19 and the CPU 39 lays out the image data C in which the jam has occurred and the image data E to be recorded next on the paper feed line Y. If possible, image data is laid out on the paper feed line Y side, and images are continuously recorded on the recording medium of the paper feed line Y. Since the image data E can be laid out on the paper feed line Y side, it is laid out next to the image data D. However, since the image data C cannot be laid out on the paper feed line Y side, the paper feed line X is restored. Record from.
[0030]
FIG. 6 shows a case where the paper supply line Y has run out of paper. As described above, when the paper supply is cut off, the paper is not supplied to the recordable area 38. Therefore, the paper detection sensor 18 detects this, and the CPU 39 stops the paper conveyance motor 20, and the CPU 39 It is determined whether the image data A, B, and D laid out in Y can be transferred to the paper feed line X. In this case, since the image data A and D are possible, the image data A and D are laid out on the paper feed line X side, and images are continuously recorded on the recording medium of the paper feed line X. Further, since the image data B cannot be laid out on the paper feed line X side, recording is executed after the paper feed line Y returns.
[0031]
FIG. 7 shows a case where the paper supply line X is out of paper. As described above, when the paper supply has run out, the paper is not supplied to the recordable area 38, so the paper detection sensor 17 detects this, and the CPU 39 stops the paper transport motor 19 and the CPU 39 It is determined whether the image data E and C laid out in X can be transferred to the paper feed line Y. In this case, since the image data E is possible, the image data E is laid out on the paper feed line Y side, and images are continuously recorded on the recording medium of the paper feed line Y. Further, since the image data C cannot be laid out on the paper feed line Y side, recording is executed after the paper feed line X is restored.
[0032]
The paper feed line shown in this embodiment is one in which the recording medium 23, 24 is provided with a width W1 (paper feed line X) and a width W2 (paper feed line Y) one by one. By providing two lines for X and two lines for paper feed Y, it is possible to lay out the print papers B and C between the paper feed lines X and Y. Can be controlled and recorded. In the above description, the recording media 23 and 24 have different widths. However, even if the recording media have the same width (W1 = W2) as shown in FIG. Sorting (layout) between them is possible.
[0034]
According to the first aspect of the present invention, the image data from the image data holding unit is temporarily stored in the image memory, and based on the recording medium having a different width detected by the paper detection unit and the image data held in the image memory. The image recording control unit can select the recording medium to be recorded, distribute the image to be recorded to a plurality of recording media, and operate a plurality of paper feed lines efficiently, thereby shortening the recording time and improving the printing efficiency. Can be improved.
[0035]
According to the second aspect of the present invention, an independent conveying unit is provided for each recording medium, and a paper detection sensor for detecting the presence or absence of the recording medium in the recordable area is provided, so that a jam or a paper supply outage occurs. However, continuous control and recording can be performed, and a plurality of feed lines for recording media having different widths can be operated efficiently, so that recording time can be shortened and printing efficiency can be improved.
[0036]
According to a third aspect of the present invention, independent conveying means are provided corresponding to a plurality of paper feed lines of each recording medium, and a paper detection sensor for detecting the presence or absence of the recording medium in the recordable area is provided. When no paper is detected by the inspection sensor, the conveying means is stopped, and the image data from the image data holding means is temporarily stored in the image memory, and held in the image memory by the size of the plurality of papers detected by the paper detecting means. Based on the detected image data and the information of the paper detection sensor, the image to be recorded on the stopped paper feed line is distributed to the recording medium of the paper feed line that is not stopped, and jamming or paper out occurs. However, since continuous control and recording can be performed and a plurality of paper feed lines can be operated efficiently, recording time can be shortened and printing efficiency can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram of an ink jet recording apparatus according to the present invention.
FIG. 2 is a perspective view showing a main part of the ink jet recording apparatus of the present invention.
FIG. 3 is an explanatory diagram illustrating an example of a layout of a recording medium according to the present invention.
4 is an explanatory diagram showing an example of a layout of a recording medium when a jam occurs in one paper feed line in the layout of FIG.
5 is an explanatory diagram illustrating an example of a layout of a recording medium when a jam occurs in the other paper feed line in the layout of FIG.
6 is an explanatory diagram illustrating an example of a layout of a recording medium in a case where out of paper feed occurs in one paper feed line in the layout of FIG.
7 is an explanatory diagram illustrating an example of a layout of a recording medium in a case where out of paper feed occurs in the other paper feed line in the layout of FIG.
FIG. 8 is a flowchart of CPU control in FIG. 1;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Inkjet printer 2 ... Image data holding means 3 ... Control means 4 ... Recording means 5 ... Paper detection means 6 ... Conveyance means 7 ... Paper cutting means 8 ... Host apparatus 9 ... Interface 10 ... Image memory 11 ... Head controller 12 ... Head Driver 13 ... Recording head 14 ... Paper detection sensor 15 ... Memory write controller 16 ... Memory read controller 17 ... Paper detection sensor 18 ... Paper detection sensor 19 ... Paper conveyance motor 20 ... Paper conveyance motor 21 ... Cutter drive motor 22 ... Carriage motor 23 ... recording medium 24 ... recording medium 25 ... recording medium roll 26 ... recording medium roll 27 ... drive roller 28 ... driven roller 29 ... carriage 30 ... guide bar 31 ... driven pulley 32 ... drive pulley 33 ... wire 34 ... guide roller 35 ... cutter 36: Recording paper holding plate 37 ... Recording head 8 ... recordable area 39 ... CPU

Claims (4)

In an ink jet recording apparatus that records a plurality of recording media having different widths in parallel and moves a recording head on the recording medium that has been conveyed in parallel, and records images on the plurality of recording media substantially simultaneously. Once the image data is stored in the image memory, the recording medium to be recorded should be selected and recorded by the image recording control unit based on the recording medium data detected by the paper detection means and the image data held in the image memory. An ink jet recording apparatus that distributes an image to a plurality of recording media. 2. The ink jet recording apparatus according to claim 1, further comprising an independent conveying unit corresponding to each recording medium, and a paper detection sensor for detecting the presence or absence of the recording medium in the vicinity of the recordable area . In an inkjet recording apparatus for recording a plurality of recording media having different widths in parallel and moving a recording head on the recording medium that has been conveyed in parallel and recording images on the plurality of recording media substantially simultaneously, a plurality of recording media An independent conveying means is provided corresponding to the paper feed line, and a paper detection sensor for detecting the presence or absence of a recording medium is provided in the vicinity of the recordable area, and the conveying means when no paper is detected by the paper inspection sensor. The image data from the image data holding means is temporarily stored in the image memory, and based on the recording medium data detected by the paper detection means, the image data held in the image memory and the information of the paper detection sensor An ink jet recording apparatus that distributes an image to be recorded on a stopped paper feed line to a recording medium on a paper feed line that is not stopped . 4. The plurality of recording media having different widths, wherein a width of at least one of the recording media corresponds to a width of one image data and corresponds to a length of another image data. The ink jet recording apparatus according to any one of claims.

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