Source: https://patents.google.com/patent/JP5773772B2/en
Timestamp: 2020-03-29 10:29:45
Document Index: 198033868

Matched Legal Cases: ['art 2', 'art 4', 'art 5', 'art 6', 'art 8', 'art 9', 'art 10', 'art 13', 'art 14']

JP5773772B2 - image forming apparatus - Google Patents
JP5773772B2
JP5773772B2 JP2011135104A JP2011135104A JP5773772B2 JP 5773772 B2 JP5773772 B2 JP 5773772B2 JP 2011135104 A JP2011135104 A JP 2011135104A JP 2011135104 A JP2011135104 A JP 2011135104A JP 5773772 B2 JP5773772 B2 JP 5773772B2
JP2011135104A
JP2012020578A (en
安▲崎▼　浩二
浩二 安▲崎▼
2011-06-17 Application filed by キヤノン株式会社 filed Critical キヤノン株式会社
2011-06-17 Priority to JP2011135104A priority patent/JP5773772B2/en
2012-02-02 Publication of JP2012020578A publication Critical patent/JP2012020578A/en
2015-09-02 Publication of JP5773772B2 publication Critical patent/JP5773772B2/en
The present invention relates to an image forming apparatus having means for forming images on both sides of a roll sheet.
Patent Document 1 discloses an image forming apparatus capable of matching the printing positions of the front surface and the back surface in double-sided printing on roll paper. In Cited Document 1, the position data of the paper is acquired by capturing the front end of the paper after the front surface is printed, the position for printing the back image is determined from the acquired position data, and the print positions of the front and back surfaces are determined. Are matched. In this way, it is possible to perform duplex printing at the correct position on the paper.
Patent Document 1 discloses that the printing positions of the front surface and the back surface of double-sided printing on a roll sheet are matched. However, Cited Document 1 does not disclose any recording head maintenance processing necessary for printing the back side. For example, it does not disclose a process in the case where preliminary ejection is required at the leading edge of a continuous sheet before printing of the back side image or a management number needs to be printed.
The present invention has been made on the basis of recognition of the above problems, and when image formation is performed on both sides of a continuous sheet, it is possible to perform image formation other than the page image before forming the page image on the second surface. An object is to provide an image forming apparatus.
In order to achieve the above object, an apparatus according to the present invention includes a conveyance unit that conveys a roll sheet longer than a printing unit, a printing unit that performs printing while being conveyed by the conveyance unit, and a sheet printed by the printing unit. A cutter unit that cuts each of the printing units, a drying unit that transports the sheet cut by the cutter unit, a sorting unit that sorts the sheet dried by the drying unit, and duplex printing In this case, there is a winding unit that performs winding after the surface printing is completed, and an operation unit unit that allows an operator to check the printing status and perform apparatus maintenance. At the end, calculate the necessary area (for example, preliminary ejection area) at the front edge of the backside printing, calculate the necessary area, and calculate the margin area The provided after the final printed image is finished printing surface.
According to the present invention, when image formation is performed on both sides of a continuous sheet, it is possible to provide an image forming apparatus capable of forming an image other than a page image before forming a page image on the second surface.
FIG. 2 is a schematic cross-sectional view illustrating an internal configuration of the printing apparatus. FIG. 3 is a block diagram for illustrating a control configuration in the image forming apparatus as an embodiment of the present invention. It is a figure for demonstrating the operation | movement in single-sided print mode. It is a figure for demonstrating the operation | movement in duplex printing mode. It is a figure for demonstrating the operation | movement at the time of printing on a 2nd surface in duplex printing mode. It is a figure which shows the printing page order at the time of duplex printing with the roll sheet as one Embodiment of this invention. It is a figure which shows the printing state which performed surface printing in consideration of the process required for back surface printing, when performing double-sided printing with the roll sheet as one embodiment of the present invention. It is a flowchart which shows the process which performs front surface printing in consideration of the process required for back surface printing, when performing double-sided printing with the roll sheet as one Embodiment of this invention. 6 shows a flowchart for creating a print management table. 6 is a common flowchart for creating print management tables for the first side and the second side. FIG. 6 is a diagram illustrating information registered in a print management table.
Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the relative arrangement of the constituent elements described in this embodiment, the device shape, and the like are merely examples, and the scope of the present invention is not intended to be limited thereto.
In this specification, the “image forming apparatus” is not limited to a dedicated machine specialized in the image forming function, but is a multi-function machine that combines the image forming function and other functions, or a manufacturing apparatus that forms an image or pattern on recording paper. Etc. are also included.
Hereinafter, an embodiment of a printing apparatus using an inkjet method as an image forming apparatus will be described. The printing apparatus of this example is a high-speed line printer that uses a continuous sheet wound in a roll shape and supports both single-sided printing and double-sided printing. For example, it is suitable for the field of printing a large number of sheets in a print laboratory or the like. The present invention can be applied to a printing apparatus such as a printer, a multifunction printer, a copying machine, and a facsimile machine. In addition, the present invention is not limited to a printing apparatus, but is an industrial device (manufacturing apparatus for various devices, inspection apparatus, etc.) used in a factory or the like where a user designates an apparatus operating time and requires a long time for initialization at startup. The present invention can be widely applied to various devices such as.
FIG. 1 is a schematic cross-sectional view showing the internal configuration of the printing apparatus. The printing apparatus according to the present embodiment can perform double-sided printing on the first surface of the sheet and the second surface on the back surface side of the first surface using the sheet wound in a roll shape. In the printing apparatus, there are roughly a sheet supply unit 1, a decurling unit 2, a skew correction unit 3, a printing unit 4, an inspection unit 5, a cutter unit 6, an information recording unit 7, a drying unit 8, a reversing unit (storage unit). ) 9, the discharge transport unit 10, the sorter unit 11, the discharge unit 12, the humidification unit 20, and the control unit 13. A sheet is conveyed by a conveyance mechanism including a roller pair and a belt along a sheet conveyance path indicated by a solid line in the drawing, and is processed in each unit.
The sheet supply unit 1 is a unit for holding and supplying a continuous sheet wound in a roll shape. The sheet supply unit 1 can store two rolls R <b> 1 and R <b> 2, and is configured to selectively pull out and supply a sheet. The number of rolls that can be stored is not limited to two, and one or three or more rolls may be stored.
The skew correction unit 3 is a unit that corrects skew (inclination with respect to the original traveling direction) of the sheet that has passed through the decurling unit 2. The skew of the sheet is corrected by pressing the sheet side end on the reference side against the guide member.
The print unit 4 is a unit that forms an image by performing print processing on a sheet to be conveyed from above with a print head 14 that is an image forming unit. That is, the print unit 4 is a processing unit that performs a predetermined process on the sheet. The printing unit 4 also includes a plurality of conveying rollers that are conveying means for conveying the sheet. The print head 14 has a line type print head in which an inkjet nozzle row is formed in a range that covers the maximum width of a sheet that is supposed to be used. The print head 14 has a plurality of print heads arranged in parallel along the transport direction. In this example, there are seven print heads corresponding to seven colors of C (cyan), M (magenta), Y (yellow), LC (light cyan), LM (light magenta), G (gray), and K (black). . The number of colors and the number of print heads are not limited to seven. As the inkjet method, a method using a heating element, a method using a piezo element, a method using an electrostatic element, a method using a MEMS element, or the like can be adopted. Each color ink is supplied from the ink tank to the print head 14 via an ink tube.
The cutter unit 6 serving as a cutting unit is a unit including a mechanical cutter that cuts a printed sheet into a predetermined length. The cutter unit 6 also includes a plurality of conveyance rollers for sending out the sheet to the next process.
The information recording unit 7 is a unit that records print information (unique information) such as a print serial number and date in a non-print area of the cut sheet. Recording is performed by printing characters and codes using an inkjet method, a thermal transfer method, or the like. A sensor 23 for detecting the leading edge of the cut sheet is provided on the upstream side of the information recording unit 7 and the downstream side of the cutter unit 6. That is, the sensor 23 detects the edge of the sheet between the cutter unit 6 and the recording position by the information recording unit 7, and the information recording unit 7 controls the timing of information recording based on the detection timing of the sensor 23.
The reversing unit 9 serving as a double-sided conveyance unit is a unit for temporarily winding up a continuous sheet that has been printed on the front (front) surface when performing double-sided printing, and reversing the front and back. The reversing unit 9 is a path (loop path) (referred to as a second path) from the drying unit 8 through the decurling unit 2 to the printing unit 4 for supplying the sheet that has passed through the drying unit 8 to the printing unit 4 again. It is provided on the way. The reversing unit 9 includes a winding rotary body (drum) that rotates to wind the sheet. The continuous sheet that has been printed on the surface and has not been cut is temporarily wound around the winding rotary member. When the winding is completed, the winding rotary member rotates in the reverse direction, and the wound sheet is supplied to the decurling unit 2 and sent to the printing unit 4. Since this sheet is turned upside down, the printing unit 4 can print on the back side. More specific operation of duplex printing will be described later.
The humidifying unit 20 is a unit for generating humidified gas (air) and supplying it between the print head 14 of the printing unit 4 and the sheet. Thereby, the ink drying of the nozzle of the print head 14 is suppressed. As the humidifying method of the humidifying unit 20, a vaporization method, a water spray method, a steam method, or the like is adopted. As the vaporization type, there are a moisture permeable membrane type, a dropping permeation type, a capillary type and the like in addition to the rotation type of the present embodiment. The water spray type includes an ultrasonic type, a centrifugal type, a high-pressure spray type, and a two-fluid spray type. The steam type includes a steam piping type, an electric heating type, and an electrode type. The humidifying unit 20 and the printing unit 4 are connected by a first duct 21, and the humidifying unit 20 and the drying unit 8 are further connected by a second duct 22. The drying unit 8 generates a humid and high-temperature gas when the sheet is dried. This gas is introduced into the humidifying unit 20 through the second duct 22 and used as auxiliary energy for generating a humidified gas in the humidifying unit 20. The humidified gas generated in the humidifying unit 20 is introduced into the print unit through the first duct 21.
The control unit 13 is a unit that controls each unit of the entire printing apparatus. The control unit 13 includes a CPU, a storage device, a controller (control unit) including various control units, an external interface, and an operation unit 15 that is input and output by a user. The operation of the printing apparatus is controlled based on a command from a host device 16 such as a controller or a host computer connected to the controller via an external interface.
FIG. 2 is a block diagram for explaining the configuration of the control means in the image forming apparatus applied in this embodiment. For example, it has a CPU 201 in the form of a microcomputer, a ROM 202 storing programs, required tables and other fixed data, and a RAM 203 provided with control commands received from the host device 211, work areas, and the like. The HDD 204 temporarily stores image data supplied from the host device 211, a required table, and the like. The operation unit 206 has a display for displaying the state of the apparatus and the like, and is used for inputting operation instructions from the operator, registering various data, and confirming the state of the apparatus. The image processing unit 207 manages image processing of the image forming apparatus. The image data color space (for example, YCbCr) is converted into a standard RGB color space (for example, sRGB). Various image processing such as resolution conversion to an effective number of pixels, image analysis, image correction, and the like are performed as necessary. Print data obtained by such image processing is stored in the RAM 203 or the HDD 204. The engine control unit 208 performs control to print the print data on the recording medium in accordance with the received control command. An ink ejection instruction to the print head of each color, ejection timing setting for adjusting the dot position on the recording medium, head drive state acquisition, and the like are performed. The print head drive is controlled according to the print data, and ink is ejected from the print head to form an image on the recording medium. In addition, the conveyance roller is controlled such as a feed roller drive instruction, a conveyance roller drive instruction, and a conveyance roller rotation status acquisition, and the recording medium is conveyed and stopped at an appropriate speed. The scanner control unit 209 controls an image sensor such as a CCD or CIS according to the received control command, reads an image on a recording medium, and analogs of red (R), green (G), and blue (B) colors. Get luminance data. The image sensor drive instruction, the image sensor status acquisition, the luminance data acquired from the image sensor are analyzed, and discharge failure and the cutting position of the recording medium are detected. After being dried, it is placed on the tray of the designated sorting unit. The host apparatus 211 is an apparatus that is connected to the outside of the image forming apparatus and serves as an image supply source. The host device 211 may be a computer that creates and processes data such as images related to printing, or may be in the form of a reader unit for image reading. Image data, other commands, status signals, and the like supplied from the host device 211 can be transmitted to and received from the image forming apparatus 200 via the external I / F 205. These are connected by a system bus 210. The control method is not limited to the configuration shown in the present embodiment, and each of the processing units and the control unit may be divided into a plurality of units and each may be controlled by holding the CPU, and is limited to only these. It is not a thing.
FIG. 3 is a diagram for explaining the operation in the single-sided printing mode. A conveyance path from the time when the sheet supplied from the sheet supply unit 1 is printed and discharged to the discharge unit 12 is indicated by a bold line. The sheet supplied from the sheet supply unit 1 and processed by the decurling unit 2 and the skew feeding correction unit 3 is printed on the front surface (first surface) by the printing unit 4. An image having a predetermined unit length (referred to as a unit image) in the transport direction is sequentially printed on a long continuous sheet to form a plurality of images side by side. The printed sheet passes through the inspection unit 5 and is cut for each unit image in the cutter unit 6. The cut sheet is recorded with print information on the back side of the sheet by the information recording unit 7 as necessary. Then, the cut sheets are conveyed one by one to the drying unit 8 and dried. Thereafter, the sheet is sequentially discharged and stacked on the discharge unit 12 of the sorter unit 11 via the discharge conveyance unit 10. On the other hand, the sheet left on the print unit 4 side by cutting the last unit image is sent back to the sheet supply unit 1, and the sheet is wound on the roll R1 or R2. Thus, in single-sided printing, the sheet passes through the first path and the third path and is processed, and does not pass through the second path.
FIG. 4 is a diagram for explaining the operation in the duplex printing mode. In double-sided printing, the back (second side) print sequence is executed after the front (front) side (first side) print sequence. In the first front surface print sequence, the operation in each unit from the sheet supply unit 1 to the inspection unit 5 is the same as the one-sided printing operation described above. The cutter unit 6 is conveyed to the drying unit 8 as a continuous sheet without performing a cutting operation. After the ink is dried on the surface in the drying unit 8, the sheet is guided to the path (second path) on the reversing unit 9 instead of the path (third path) on the discharge conveyance unit 10 side. In the second path, the leading end (first end) of the continuous sheet is gripped by the roller pair 9b of the winding rotary body 9a of the reversing unit 9 and rotates in the forward direction (counterclockwise direction in the drawing). Is wound from the first end side. In the printing unit 4, when all scheduled printing of the surface is completed, the cutter unit 6 cuts the rear end (second end) of the print area of the continuous sheet. The continuous sheet printed on the downstream side in the conveyance direction with respect to the cutting position is wound up to the rear end (cutting position) of the sheet by the reversing unit 9 through the drying unit 8. On the other hand, at the same time as the winding, the continuous sheet remaining on the upstream side in the conveying direction (on the printing unit 4 side) with respect to the cutting position is not supplied to the decurling unit 2 at the sheet leading end (cutting position). 1 and the sheet is wound on roll R1 or R2. By this rewinding, collision with the sheet supplied again in the following back surface printing sequence is avoided.
After the above-described front surface print sequence, the back surface print sequence is switched. The winding rotary body of the reversing unit 9 rotates in the opposite direction (clockwise direction in the drawing) to that during winding. As shown in FIG. 5, the wound sheet is from the second end side (the trailing end (second end) of the sheet at the time of winding is the leading end of the sheet at the time of feeding) along the broken line path in the drawing. It is sent to the decal part 2. In the decurling unit 2, the curl imparted by the winding rotary member is corrected. That is, the decurling unit 2 is provided between the sheet supply unit 1 and the printing unit 4 in the first path and between the reversing unit 9 and the printing unit 4 in the second path, and functions as a decal in any path. It is a common unit. The sheet whose front and back sides are reversed is sent to the printing unit 4 through the skew correction unit 3 and printed on the back side of the sheet. The printed sheet passes through the inspection unit 5 and is cut into predetermined unit lengths set in advance in the cutter unit 6. Since the cut sheet is printed on both sides, recording by the information recording unit 7 is not performed. Cut sheets are conveyed one by one to the drying unit 8, and sequentially discharged and stacked on the discharge unit 12 of the sorter unit 11 via the discharge conveyance unit 10. As described above, in duplex printing, a sheet passes through the first path, the second path, the first path, and the third path in this order.
FIG. 6 is a diagram illustrating a print page order when double-sided printing is performed on a roll sheet. First, double-sided printing of a sheet is performed from printing on the first surface (front surface). The image processing unit 207 generates images to be printed on both sides. After the generation of the image to be printed on the front side is completed, the image data is transmitted to the engine control unit 208 to instruct to start the front side printing. Upon receiving the instruction, the engine control unit 208 feeds a sheet from the sheet supply unit 1 and is conveyed to the printing unit 4 through the decurling unit 2 and the skew feeding correction unit 3. An image having a print instruction is printed on the surface of the sheet conveyed to the printing unit 4 and conveyed to the sheet inspection unit 5. The image is read by the scanner of the sheet inspection unit 5, checked by the 209 scanner control unit, and then conveyed to the cutter unit 6. At the time of front surface printing, the cutter unit 6 does not cut the print unit every length, and passes the drying unit 8 through the drying unit 8 as it is a continuous sheet, and then winds it with the winding drum of the reversing unit 9.
The above operation is performed until printing of all images for which a print instruction is given on the front surface is completed. When the front side printing is completed, the image processing unit 207 transmits image data to be printed on the second side (back side) to the engine control unit 208, and instructs to start the back side printing. The front surface printed image sheet wound up on the sheet winding drum is conveyed again to the decurling unit 2 and an image for which a print instruction is given is printed on the back surface. When printing on the back side, the sheet with the printed surface is conveyed to the printing unit 4 via the decurling unit 2 and the skew feeding correction unit 3. An image for which a print instruction has been given is printed on the back side of the corresponding front side image and conveyed to the inspection unit 5. After the image is confirmed by the inspection unit 5, the image is conveyed to the cutter unit 6. After printing on the back side, the cutter unit 6 cuts the unit image for each length, passes through the drying unit 8 and is dried, then transports it to the discharge unit 12, and transports it to the tray designated for each image. I do. In double-sided printing, images are arranged in the order in which orders are sent, and odd pages are arranged on the front side. On the back side, even pages are arranged and printed. Therefore, the front page is printed in ascending order, while the back page is printed in descending order.
FIG. 7A shows that when a double-sided printing is actually performed on a continuous sheet, in addition to printing an image based on image information, a pattern necessary for recording head maintenance is also printed on the back side. It is a figure which shows the printing result which performed surface printing. When a front surface image is generated by the image processing unit 207 and the front surface image data is transmitted to the engine control unit 208, the engine control unit 208 determines a preliminary ejection area required at the time of starting printing of the front surface. Insert at 301. A preliminary discharge pattern is printed in the vicinity of the first end, which is the leading end when printing on the surface. In step 302, printing of the front page image is started. First, printing is performed from an odd page. When printing is finished while printing 7 pages in FIG. 7A, the engine control unit 208 calculates the length of the pre-discharge area required for back side printing, and is calculated behind the rear edge of the 7th page. A margin portion corresponding to the length is secured, and the paper is cut behind the margin portion. The back side of the blank portion formed in a region continuous with the end portion in the longitudinal direction of the continuous sheet is a management recording portion in which a management image such as a preliminary ejection pattern is recorded at the time of image formation on the second surface. In the management recording portion, a maintenance image such as a preliminary ejection pattern or a pattern for detecting non-ejection of nozzles is recorded. In addition, an image for controlling the apparatus such as a cut mark may be formed.
In the case of an apparatus in which printing on the second surface is started from the first end portion in the same manner as printing on the first surface, a preliminary discharge pattern or control is provided in a region continuous with the first end portion on the second surface. An image for is formed. A preliminary discharge pattern is formed in the vicinity of the first end of the first surface. However, if a larger area is required for a maintenance image or a control image formed in a continuous area at the first end of the second surface, the first end of the first surface A blank is formed in a continuous area other than the preliminary ejection pattern. As described above, when an image is formed on the first surface, an image based on image information is formed in a region other than a region continuous with at least one end in the longitudinal direction of the continuous sheet.
When the back side image data is transmitted from the image processing unit 207 to the engine control unit 208 after the front side printing is finished, the back side printing is started. At the start of back side printing, preliminary ejection is inserted into the management recording portion at 304. When printing on the back side, the second end opposite to the first end is the top. A preliminary ejection pattern is printed on the second end side of the first page of the second surface. Next, the numbers are printed in descending order. The first page on the back side is printed at a position that overlaps the back side of the last printed page on the front side.
FIG. 7B shows a printing result when printing is performed only on the front surface. The continuous sheet is cut at the rear end portion of the fourth page, which is the last page, and no preliminary discharge area is left on the back surface.
FIG. 8 is a flowchart showing a process for performing the front surface printing in consideration of the processes necessary for the back surface printing when performing the double-sided printing with the roll sheet. In step 501, surface image data is transmitted from the image processing unit 207 to the engine control unit 208. When the image is transmitted, printing of the front surface image is started in step 502, and printing of the front surface image is performed in step 503. If there is no paper in step 504, a processing area necessary for back side printing is calculated in step 506. In the case of the present embodiment, since it is necessary to print the preliminary discharge on the front end of the back surface print, the size of the area necessary for the preliminary discharge printing is calculated. If it is determined in step 504 that there is no paper, it is checked in step 505 whether front-side printing has been completed. If the surface printing is not completed in step 505, the surface printing in step 503 is continued. If the front surface printing has been completed in step 505, the cut position of the rear end position of the final image on the front surface is determined in step 506, and the cut mark is printed. In addition, there are areas for preliminary ejection that need to be performed at the leading edge of the continuous sheet at the start of backside printing, areas for printing cut marks for cutting off the preliminary ejection areas, areas for adjusting the printing positions on the front and back sides, etc. The total processing area is calculated. In step 507, the cut position for leaving the processing area required at the start of the back surface printing calculated in step 506 when the continuous sheet on which the front surface image has been printed is separated from the roll sheet, behind the last image on the front surface. To decide. That is, in step 507, a position further upstream than the cut position of the rear end of the final image on the front surface by the length of the processing region is determined as the cut position. Then, information on the cut position for separating the continuous paper from the roll paper is registered in the management table, and the cut mark is printed. In step 508, the front surface printing is finished and the paper is cut. The paper whose surface is printed by cutting the paper is wound around the duplex unit 113, and the unprinted paper is wound around the roll R 1 of the sheet supply unit 1. After winding, wait for the back image to be transmitted. When the back image is transmitted in step 509, the leading edge preliminary discharge is applied to the back of the margin portion secured in step 507 and to the top of the back print in step 510. Print. When the front end preliminary ejection is printed, back side printing is started in step 511 and back side printing is performed in step 512. In step 513, it is confirmed whether the back side printing has been completed. If the back side printing has been hunted, the process is finished. If not, the back side printing is continued in step 512.
At the time of front side printing, the rear end of each image is not cut, and the back side is printed as a continuous sheet with a plurality of images printed on the front side. At the time of printing on the back side, a cut mark printed for each rear end of the image is used as a trigger to cut the rear end of each image, thereby completing a printed matter printed on the front and back sides.
Next, as a second embodiment, a description will be given of an example of processing when two types of jobs, a job for printing only the front side and a job for printing both sides, are sent at random.
FIG. 9 shows a flowchart for creating a print management table. In step S601, it is determined whether the print being processed is related to the first side. In the case of the first side, the process proceeds to step S602 to create a print management table for the first side. In the print management table creation process, image information and cut mark pattern information and position information serving as a trigger for cutting the trailing edge of each page are stored in the print management table for each page. In step S603, it is determined whether or not there is print information on the second side. If there is no print information on the second side, the job is a one-sided print job, so the creation of the print management table ends. If there is print information on the second side, it is a double-sided print. In this case, if the continuous sheet is cut at the trailing edge of the last page of the first surface, there is no area for performing preliminary ejection at the leading edge of the continuous sheet when the second surface is printed. In step S604, in order to form an area for preliminary ejection at the leading edge of the continuous sheet during printing of the second surface, a position that is behind by the length necessary for preliminary ejection or the like from the rear end of the last page of the first surface. Determine the cutting position. This area is an area for preliminary ejection and an area for printing a cut mark for cutting off a portion on which the preliminary ejection pattern is printed. In step S604, the cut mark pattern information and cut position information are registered in the print management table on the first side.
Next, the process returns to step S601, proceeds to S605, creates the second side print management table, and ends.
FIG. 10 is a common flowchart for creating the print management tables for the first side and the second side, and shows the contents of S602 and S605 in FIG. In step S701, information and position information on the preliminary ejection pattern prior to printing the first page, and cut mark information on the trailing edge of the preliminary ejection pattern are registered in the management table. The preliminary ejection pattern is printed in the vicinity of the first end, which is the leading edge of the continuous sheet before being separated from the roll sheet in the first surface printing. In the printing on the second surface, printing is performed in the vicinity of the second end opposite to the first end of the continuous sheet cut from the roll sheet.
In step S702, image information of each page, page position information, and cut mark information at the rear end of the page are registered in the print management table. In step S703, it is determined whether or not preliminary ejection is performed next to the cut mark of each page. Preliminary ejection is performed, for example, in order to prevent ink whose viscosity has been increased by evaporation from staying in an ink ejection port with a low ejection frequency of the recording head and thereby deteriorating ejection performance. Usually, in order to maintain the ink ejection performance, the interval between the previous preliminary ejection and the next preliminary ejection is performed within a predetermined time. If it is determined that preliminary ejection is necessary, preliminary ejection pattern data, position information, and cut mark information for cutting off the preliminary ejection pattern are registered in step S704. When the preliminary ejection is not necessary, and after the preliminary ejection information is registered, the process proceeds to step S705, where it is determined whether the page image information on the surface of the continuous sheet being printed is complete, and there is next page image data Returns to step S702. When the image data is finished, the print management table creation is finished.
FIG. 11A shows information registered in the created print management table for duplex printing. In the print management table for the first side, data of a preliminary ejection pattern to be performed before printing of each page is stored first, and then image data of odd pages is stored in ascending order. Preliminary ejection pattern data is also stored in the middle of page image data, and preliminary ejection is performed at a necessary timing during printing. Each page image and pattern data includes position information indicating the position to be printed.
A blank is provided after the cut mark after the ninth page, which is the last page of the print management table for the first side, in order to form an area for printing preliminary ejection at the beginning of the second side. Information of cut marks for separating the continuous sheet from the roll sheet is stored behind the blank. A blank column is drawn so that it can be easily imaged. However, blank data is not always present, and a blank is formed on the continuous sheet by position information of the last and preceding cut marks. This blank space becomes a management recording portion where a management image is formed when the image on the second side is formed.
The print management table on the second side is shown upside down in order to make it easier to see the correspondence between the print management table on the first side and the front and back. The print management table on the second side stores the data of the preliminary ejection pattern to be printed first, and stores page image information and cut mark information arranged in descending order. Preliminary ejection pattern data is also stored in the middle of the page image information.
For comparison, FIG. 11B also shows a print management table when only the first surface is printed. In this case, the cut mark information is stored behind the last page, which is page 5, and there is no data behind this cut mark. When printing only on the first side, the continuous sheet is cut at a position behind the last page printed on the first side. When printing on the second side after printing on the first side, it is at the rear position of the last page printed on the first side, at a position further rearward than when printing only on the first side. The continuous sheet is cut.
The printing operation is executed after the creation of the print management table is completed or in parallel with the creation of the print management table.
In the case of printing only on the first surface, the continuous sheet is printed by the printing unit 4, and is cut for each page based on the cut mark in the cutter unit 6 downstream thereof.
In the case of double-sided printing, the continuous sheet is cut based on a cut mark further behind the cut mark immediately after the last page, without cutting for each page when printing the first side. The cut continuous sheet is wound around the winding drum of the reversing unit 9 and temporarily stored, and is conveyed again to the printing unit 4 for printing on the second surface. At the time of printing on the second side, the continuous sheet is printed by the printing unit 4, and is cut for each page based on the cut mark in the cutter unit 6 on the downstream side, thereby forming a double-sided printed matter.
In the above-described embodiment, a preliminary ejection pattern is printed as a maintenance pattern that is a management image on the leading ends of the first and second surfaces of the continuous sheet. In addition to the pattern for preliminary ejection, the maintenance pattern is a pattern for detecting defective ejection at the ejection opening of the print head, a pattern for detecting the conveyance accuracy, and a pattern for obtaining a correction value for the driving amount of the conveyance roller. and so on. In addition to the maintenance pattern, the management information of the printed matter may be recorded as the management image. Even when an area for recording management information such as a management number is secured at the leading edge of the second surface, management recording is performed at the trailing edge of the continuous sheet during the first surface recording, as in the case of securing an area for preliminary ejection. Cut away leaving the part.
DESCRIPTION OF SYMBOLS 1 Sheet supply part 4 Print part 5 Inspection part 6 Cutter part 8 Drying part 9 Sheet winding part 10 Discharge conveyance part 13 Control part 14 Print head 15 Controller
Conveying means for conveying a continuous sheet;
An image forming unit that forms an image of a plurality of pages on a continuous sheet conveyed by the conveying unit;
A cutting unit that is disposed downstream of the image forming unit in the conveying direction of the continuous sheet, and cuts the continuous sheet;
The first end is transported by the transport unit to the top, the plurality of pages are imaged on the first surface by the image forming unit, and the continuous sheet cut by the cutting unit is image-formed on the second surface. Therefore, a double-sided conveyance unit that conveys the second end opposite to the first end formed by cutting to the conveyance unit,
When forming an image only on the first surface, the continuous sheet is cut by the cutting means at a position behind the last page imaged on the first surface, and after the image is formed on the first surface, the image is formed on the second surface. When forming, control is performed so that the continuous sheet is cut at a position behind the last page on which the image is formed on the first surface and further on the rear side than when the image is formed only on the first surface. Control means;
When the image forming is performed on the second surface after the image is formed on the first surface, the control unit is configured so that the continuous sheet is formed more than the first page of the second surface formed on the back side of the last page of the first surface. In order to form an area for forming a maintenance pattern image in the vicinity of the second end portion, control is performed so that the continuous sheet is cut at a position further rearward than in the case of forming an image only on the first surface. Item 2. The image forming apparatus according to Item 1.
The image forming apparatus according to claim 1, wherein when the page is imaged only on the first surface, the cutting unit cuts a rear end portion of each page on which the image is formed on the first surface.
3. The image formation according to claim 1, wherein when image formation is performed on the second surface, the continuous sheet is fed to the double-sided conveyance unit without cutting the trailing edge of each page after image formation on the first surface. apparatus.
2. The image formation according to claim 1, wherein when image formation is performed on the second surface, the first page of the second surface is imaged after the maintenance pattern is imaged in the vicinity of the second end by the image forming unit. apparatus.
The image forming apparatus according to claim 5, wherein the first page of the second surface forms an image at a position overlapping a back side of the last page of the first surface.
The image forming apparatus according to claim 2, wherein the image forming unit has an ejection port for ejecting ink, and the maintenance pattern is a pattern for preliminary ejection for maintaining ejection performance from the ejection port.
The image forming apparatus according to claim 2, wherein the image forming unit includes an ejection port that ejects ink, and the maintenance pattern is a pattern for detecting ejection failure of the ejection port.
When the image forming is performed on the second surface after the image is formed on the first surface, the control unit is configured so that the continuous sheet is formed more than the first page of the second surface formed on the back side of the last page of the first surface. In order to form an area for forming an image of management information in the vicinity of the second end, control is performed so as to cut the continuous sheet at a position further rearward than when forming an image only on the first surface. Item 2. The image forming apparatus according to Item 1.
The image forming apparatus according to claim 9, wherein the management information is a management number of a printed sheet.
The image forming apparatus according to claim 1, wherein the double-sided conveyance unit winds the continuous sheet from the first end side and sends the second end to the top.
A plurality of pages of images are formed on the first surface by the image forming means, and management recording is performed backward from the rear end in the transport direction when the image is formed on the first surface of the last image formed on the first surface. The continuous sheet is cut by the cutting means at the position where the part is to be formed, and when forming an image on the second surface, a management image is formed on the management recording portion by the image forming means, and finally formed on the first surface. Control means for controlling the image formation of the first page with respect to the second surface at a position on the back side of the page;
An image forming apparatus for forming an image on the second surface of the continuous sheet after forming an image on the first surface of the continuous sheet using an image forming unit,
Control means for controlling the image forming means to form an image based on the acquired image information and to form an image for maintenance or control of the image forming apparatus;
The control means, when forming an image on the first surface, forms an image based on image information in a region other than a region continuous with at least one end in the longitudinal direction of the continuous sheet,
When forming an image on the second surface, an image for maintenance or control is formed on the back side of a region continuous with the at least one end portion of the first surface where an image based on image information was not formed. An image forming apparatus characterized in that the control is performed.
A supply unit for storing and supplying a continuous sheet wound in a roll;
A storage unit for winding and storing a continuous sheet supplied from the supply unit and having an image formed on the first surface by the image forming unit;
14. The continuous sheet stored in the storage unit is pulled out from the storage unit, and is supplied to the image forming unit with the rear end when forming an image on the first surface as a head, thereby forming an image on the second surface. The image forming apparatus described in 1.
The control means forms an image based on the image information in an area other than the area continuous to the rear end when the image is formed on the first surface,
When forming an image on the second surface, control is performed so that an image for maintenance or control is formed on the back side of a region continuous with the rear end of the first surface where an image based on image information is not formed. The image forming apparatus according to claim 14.
JP2011135104A 2010-06-18 2011-06-17 image forming apparatus Active JP5773772B2 (en)
JP2011135104A JP5773772B2 (en) 2010-06-18 2011-06-17 image forming apparatus
JP2012020578A JP2012020578A (en) 2012-02-02
JP5773772B2 true JP5773772B2 (en) 2015-09-02
JP2011135104A Active JP5773772B2 (en) 2010-06-18 2011-06-17 image forming apparatus
DE60022164T2 (en) * 2000-04-20 2006-08-17 Hewlett-Packard Development Co., L.P., Houston Method and device for improving image quality in a printing device
US8434849B2 (en) 2013-05-07 Printing apparatus to dry sheets on which ink is applied
JP2008296472A (en) 2008-12-11 Image forming apparatus